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0c51b93

import json
from typing import Any, Dict, List, Optional, Tuple, Type, TypeVar, Union

from openai import OpenAI
from pydantic import BaseModel, Field

T = TypeVar("T", bound=BaseModel)


DEFAULT_PROMPT = """
## Reward Attribution Instructions for LLMs

Two agents are in a conversation. For now, you are the judge of the utterance of one of the agents.

1. Input Context:
   - You will recieve the utterance or action of an agent at a certain point and the conversation before it.
   - You will also be provided with the social goal of the agent.

2. Objective:
   - Assign an importance value to the utterance based on its contribution to the final goal achievement score, judging from how good/bad the quality of the utterance is. Note, you should only consider the chosen utterance, not the quality of the conversation history. The conversation history is only provided for context.

3. Additional Reward Guidelines:
   - If an utterance has no impact on the final goal achievement, assign it an importance of 0.
   - If an utterance has a moderate impact on the final goal achievement, assign it an importance of 1 or 2 (depending on the degree of impact).
   - If an utterance has a significant impact on the final goal achievement (aside from the key critical utterance already identified), assign it an importance of 3.

   Note:
   - Please only assign a score between 0 and 3.

### Your Agent's Name:
{agent}
### Your Agent's Goal:
{goal}
### Conversation History:
{conversation}
### Your Agent's Utterance:
{utterance}
"""

class UtteranceScore(BaseModel):
    score: int = Field(ge=0, le=10)
    reasoning: str

def openai_call(prompt: str, model: str = "gpt-3.5-turbo") -> str | None:
    client = OpenAI()
    response = client.chat.completions.create(
        model=model,
        messages=[{"role": "user", "content": prompt}],
        response_format={ "type": "json_object" }
    )
    return response.choices[0].message.content

def openai_call_with_response_model(
    prompt: str,
    model: str = "gpt-3.5-turbo",
    response_model: Optional[Type[T]] = None
) -> Union[T, str, None]:
    client = OpenAI()
    prompt = prompt + "\n\n" + "### Your response should follow this json schema: \n" + str(response_model.model_json_schema())
    content = None
    for i in range(3):
        try:
            response = client.chat.completions.create(
                model=model,
                messages=[{"role": "user", "content": prompt}],
                response_format={"type": "json_object"}
            )
            content = json.loads(response.choices[0].message.content)

            if response_model:
                # Assuming the content is already a dict; if it's a JSON string, you might need to load it first.
                return response_model.model_validate(content)
        except Exception:
            if not i == 2:
                print("Error in openai_call_with_response_model, trying again")
            else:
                print("Error in openai_call_with_response_model, tried 3 times and failed")

    return content

def assign_attributions_for_conversation(
    prompt_format: str,
    agent: str,
    goal: str,
    final_goal_score: int,
    conversation: List[Tuple[str, str]],
    llm_name: str = "gpt-3.5-turbo"
) -> Dict[str, int] | Any:
    prev_score = 0
    attribution_dict = {}
    for i, (speaker, utterance) in enumerate(conversation):
        if speaker == agent:
            prompt = prompt_format.format(
                agent=agent,
                goal=goal,
                score=final_goal_score,
                conversation="\n".join([f"{s}: {u}" for s, u in conversation[:i]]),
                utterance=utterance
            )
            response = openai_call_with_response_model(prompt, llm_name, UtteranceScore)
            score = response.score if response else prev_score
            attribution_dict[f"Utterance {i//2} by {speaker}"] = score
            prev_score = score
    return attribution_dict

# def calc_attributed_reward(attributed_data: List[Dict[str, float | int]], attribution_instruction_name: str, goal_score: float | int) -> List[Dict[str, Any]]:
#     utterance_reward_map = {}
#     for k, v in attributed_data.items():
#         utterance_reward_map[k] = {"reward": v / 3 * goal_score, "attribution": v}
#     return utterance_reward_map

def calc_attributed_reward(attributed_data: List[Dict[str, float | int]], attribution_instruction_name: str, goal_score: float | int) -> List[Dict[str, Any]]:
    utterance_reward_map = {}
    for k, v in attributed_data.items():
        utterance_reward_map[k] = {"reward": v / 3 * 10, "attribution": v}
    return utterance_reward_map

# unified function
def get_attribution_single_conv(conversation, agent, goals, episode, llm_name, attribution_instruction_name):
    prompt_format = DEFAULT_PROMPT
    attribution_scores = assign_attributions_for_conversation(
        prompt_format, agent, goals[agent], episode["scores"][agent], conversation, llm_name=llm_name
    )
    attribution_rewards = calc_attributed_reward(attribution_scores, attribution_instruction_name, episode["scores"][agent])
    return attribution_rewards