#!/usr/bin/env python3
# MIT License

# Copyright (c) 2024 The HuggingFace Team

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# SOFTWARE.

import logging
import re

import numpy as np
from aenum import extend_enum

from lighteval.metrics.metrics import Metrics
from lighteval.metrics.metrics_sample import JudgeLLM
from lighteval.metrics.utils.metric_utils import (
    CorpusLevelMetricGrouping,
    MetricCategory,
    MetricUseCase,
)
from lighteval.tasks.lighteval_task import LightevalTaskConfig
from lighteval.tasks.requests import Doc


logger = logging.getLogger(__name__)

JUDGE_ANSWER_SYSTEM_PROMPT = """You will be provided with the summary of a document, a piece of text, a question generated from that text, and the correct or "gold" answer to the question. Additionally, you will receive a model answer. Your task is to determine wether the model answer is correct using the provided "gold" answer as a reference.
# Steps
1. **Document Understanding**:
   - Analyze the provided document summary to grasp the context and main themes.
2. **Chunk Understanding**:
   - Examine the provided text (chunk) to understand its content.
3. **Question Understanding**:
   - Interpret the given question to fully comprehend what is being asked.
4. **Ground Truth Answer Understanding**:
   - Understand the provided ground truth answer, identifying its key points.
6. **Answer Understanding**:
   - Examine the Model Answer, identifying key points and assessing accuracy and factuality.
7. **Final Answer**:
   - 0 or 1 (0 if the model answer is incorrect, 1 if it is correct).
# Output Format
- Provide your final evaluation of whether the answer is correct within `<final_answer>` XML tags.
- Include a detailed analysis for each part within the designated XML tags: `<document_understanding>`, `<chunk_understanding>`, `<question_understanding>`, `<ground_truth_answer_understanding>`, `<model_answer_understanding>`, and `<final_answer>`.
# Examples
**Input**:
```xml
<document_summary>
[Summary]
</document_summary>
<piece_of_text>
[Text]
</piece_of_text>
<question>
[Question]
</question>
<gold_answer>
[Gold Answer]
</gold_answer>
<model_answer>
[Model Answer]
</model_answer>
```
**Output**:
```xml
<document_understanding>
Understanding of the summary including key themes
</document_understanding>
<chunk_understanding>
Analysis of the piece of text
</chunk_understanding>
<question_understanding>
Comprehension of the question being asked
</question_understanding>
<ground_truth_answer_understanding>
Key points from the gold answer
</ground_truth_answer_understanding>
<model_answer_understanding>
Key points and accuracy of Answer A
</model_answer_understanding>
<final_answer>
1 or 0 (1 if the model answer is correct, 0 if it is incorrect)
</final_answer>
```
# Notes
- Always focus on key points and factual correctness as per the ground truth.
- Avoid any biases and rely solely on the evidence presented.
- Enclose all evaluations and analyses in the specified XML tags for clarity and structure."""


JUDGE_ANSWER_USER_PROMPT = """<document_summary>
{summary}
</document_summary>
<piece_of_text>
{chunk}
</piece_of_text>
<question>
{question}
</question>
<gold_answer>
{oracle_answer}
</gold_answer>
<model_answer>
{model_answer}
</model_answer>"""


def get_judge_prompt(question: str, answer: str, gold: str, **kwargs):
    chunk = kwargs.get("chunks", "")
    summary = kwargs.get("documents", "")

    return [
        {"role": "system", "content": JUDGE_ANSWER_SYSTEM_PROMPT},
        {
            "role": "user",
            "content": JUDGE_ANSWER_USER_PROMPT.format(
                summary=summary, chunk=chunk, question=question, oracle_answer=gold, model_answer=answer
            ),
        },
    ]


def process_judge_response_yourbench(response):
    # Si la réponse est un dictionnaire, extraire le contenu
    if isinstance(response, dict):
        if "content" in response:
            response = response["content"]
        elif "text" in response:
            response = response["text"]
        elif "response" in response:
            response = response["response"]
        else:
            # Si on ne trouve pas de champ texte, on prend la première valeur
            response = str(list(response.values())[0])
    
    # Si la réponse est une liste, prendre le premier élément
    if isinstance(response, list):
        response = response[0]
    
    # extract the final answer using regex from the response xml
    try:
        # Essayer d'abord le format XML
        match = re.search(r"<final_answer>(.*?)</final_answer>", str(response), re.DOTALL)
        if match:
            answer_text = match.group(1).strip()
            # Convertir différents formats possibles en 0 ou 1
            if answer_text in ["1", "correct", "true", "yes", "True", "TRUE"]:
                return 1
            elif answer_text in ["0", "incorrect", "false", "no", "False", "FALSE"]:
                return 0
            # Essayer de convertir directement en nombre
            try:
                value = int(answer_text)
                return 1 if value > 0 else 0
            except ValueError:
                pass
        
        # Rechercher des mots-clés dans la réponse
        if re.search(r"\b(correct|vrai|true|yes)\b", str(response), re.IGNORECASE):
            return 1
        if re.search(r"\b(incorrect|faux|false|no)\b", str(response), re.IGNORECASE):
            return 0
            
        logger.warning(f"Réponse du juge non reconnue, retournant 0 par défaut: {str(response)[:100]}...")
    except Exception as e:
        logger.error(f"Error processing judge response: {e}")
        logger.error(f"Response type: {type(response)}")
        logger.error(f"Response content: {response}")
    return 0


class JudgeLLMYourBench(JudgeLLM):
    def __init__(self):
        super().__init__(
            judge_model_name="gpt-4o-2024-08-06",
            template=get_judge_prompt,
            process_judge_response=process_judge_response_yourbench,
            judge_backend="openai",
            short_judge_name="yourbench_judge",
        )

    def compute(self, sample_ids: list[str], responses: list, formatted_docs: list[Doc]) -> list[dict[str, float]]:
        # If we are evaluating a multiturn task, we need to have specific field in the formatted doc
        questions = [formatted_doc.specific["question"] for formatted_doc in formatted_docs]
        golds = [formatted_doc.get_golds()[0] for formatted_doc in formatted_docs]
        predictions = [response[0].result[0] for response in responses]
        options = [None] * len(questions)
        chunks = [formatted_doc.specific["chunks"][0] for formatted_doc in formatted_docs]
        documents = [formatted_doc.specific["document"] for formatted_doc in formatted_docs]

        # Ajout de logs pour déboguer
        logger.info(f"Questions: {questions}")
        logger.info(f"Predictions: {predictions}")
        logger.info(f"Golds: {golds}")

        score, _, _ = self.judge.evaluate_answer_batch(
            questions, predictions, options, golds, chunks=chunks, documents=documents
        )

        # Ajout de logs pour déboguer
        logger.info(f"Scores: {score}")

        metrics = []
        for i in range(len(sample_ids)):
            metrics.append(
                {
                    "accuracy": score[i],
                }
            )

        return metrics


ZEROSHOT_QA_USER_PROMPT = """Answer the following question:
<question>
{question}
</question>
Enclose your full answer in <answer> XML tags. For example:
<answer>
[your answer here]
</answer>"""


def yourbench_prompt(line, task_name: str = ""):
    return Doc(
        task_name=task_name,
        query=ZEROSHOT_QA_USER_PROMPT.format(question=line["question"]),
        choices=[line["self_answer"]],
        gold_index=0,
        specific={
            "question_category": line["self_assessed_question_type"],
            "kind": "qa",
            "estimated_difficulty": line["estimated_difficulty"],
            "document_id": line["document_id"],
            "question_generating_model": line["generating_model"],
            "chunks": line["citations"],
            "question": line["question"],
            "document": line["raw_response"],
        },
    )


def create_yourbench_task(hf_dataset_name, subset="lighteval_single_shot_questions"):
    """
    Crée une tâche personnalisée yourbench pour lighteval.
    
    Args:
        hf_dataset_name: Nom du dataset sur le Hub HF (format: "org/nom")
        subset: Nom du sous-ensemble à utiliser
        
    Returns:
        LightevalTaskConfig: Configuration de la tâche yourbench
    """
    yourbench_metrics = CorpusLevelMetricGrouping(
        metric_name=["accuracy"],
        higher_is_better={"accuracy": True},
        category=MetricCategory.LLM_AS_JUDGE,
        use_case=MetricUseCase.ACCURACY,
        sample_level_fn=JudgeLLMYourBench().compute,
        corpus_level_fn={"accuracy": np.mean},
    )
    
    try:
        extend_enum(Metrics, "accuracy", yourbench_metrics)
    except Exception:
        # L'enum a peut-être déjà été ajouté, on ignore l'erreur
        pass
    
    return LightevalTaskConfig(
        name="yourbench",
        suite=["custom"],
        prompt_function=yourbench_prompt,
        hf_repo=hf_dataset_name,
        hf_subset=subset,
        hf_avail_splits=["train"],
        evaluation_splits=["train"],
        few_shots_split=None,
        few_shots_select=None,
        generation_size=8192,
        metric=[Metrics.accuracy],
        stop_sequence=[],
        trust_dataset=True,
        version=0,
    )