import datetime
import numpy as np
import torch
import torch.nn.functional as F
import speech_recognition as sr
import re
import time
import pickle
from sklearn.metrics.pairwise import cosine_similarity


# Build the AI
class CelebBot():

    def __init__(self, name, gender, QA_tokenizer, QA_model, sentTr_tokenizer, sentTr_model, spacy_model, knowledge_sents, top_k = 8):
        self.name = name
        self.gender = gender
        print("--- starting up", self.name, self.gender, "---")
        self.text = ""
        self.QA_tokenizer = QA_tokenizer
        self.QA_model = QA_model

        self.sentTr_tokenizer = sentTr_tokenizer
        self.sentTr_model = sentTr_model
        self.spacy_model = spacy_model

        self.all_knowledge = knowledge_sents
        self.top_k = top_k

    def speech_to_text(self):
        recognizer = sr.Recognizer()
        with sr.Microphone() as mic:
            recognizer.adjust_for_ambient_noise(mic, duration=1)
            # flag = input("Are you ready to record?\nProceed (Y/n)")

            # try:
            #     assert flag=='Y'
            # except:
            #     self.text = ""
            #     print(f"me -->  Permission denied")
            time.sleep(1)

            print("listening")
            audio = recognizer.listen(mic)
            try:
                self.text = recognizer.recognize_google(audio)
            except:
                self.text = ""
                print(f"me -->  No audio recognized")

    def text_to_speech(self, autoplay=True):
        import run_tts
        return run_tts.tts(self.text, "_".join(self.name.split(" ")), self.spacy_model, autoplay)

    def sentence_embeds_inference(self, texts: list):
        def _mean_pooling(model_output, attention_mask):
            token_embeddings = model_output[0] #First element of model_output contains all token embeddings
            input_mask_expanded = attention_mask.unsqueeze(-1).expand(token_embeddings.size()).float()
            return torch.sum(token_embeddings * input_mask_expanded, 1) / torch.clamp(input_mask_expanded.sum(1), min=1e-9)
        # Tokenize sentences
        encoded_input = self.sentTr_tokenizer(texts, padding=True, truncation=True, return_tensors='pt')
        encoded_input["input_ids"] = encoded_input["input_ids"].to(self.sentTr_model.device)
        encoded_input["attention_mask"] = encoded_input["attention_mask"].to(self.sentTr_model.device)

        # Compute token embeddings
        with torch.no_grad():
            model_output = self.sentTr_model(**encoded_input)

        # Perform pooling
        sentence_embeddings = _mean_pooling(model_output, encoded_input['attention_mask'])

        # Normalize embeddings
        sentence_embeddings = F.normalize(sentence_embeddings, p=2, dim=1)

        return sentence_embeddings

    def retrieve_knowledge_assertions(self, change_person=True):
        question_embeddings = self.sentence_embeds_inference([self.text])

        all_knowledge_embeddings = self.sentence_embeds_inference(self.all_knowledge)
        similarity = cosine_similarity(all_knowledge_embeddings.cpu(), question_embeddings.cpu())
        similarity = np.reshape(similarity, (1, -1))[0]
        K = min(self.top_k, len(self.all_knowledge))
        top_K = np.sort(np.argpartition(similarity, -K)[-K: ])
        all_knowledge_assertions = np.array(self.all_knowledge)[top_K]

        # similarities = np.array(similarity)[top_K]

        # print(*all_knowledge_assertions, sep='\n')

        if change_person:
           all_knowledge_assertions = [self.third_to_first_person(sent) for sent in all_knowledge_assertions]
        return " ".join(all_knowledge_assertions)

    def third_to_first_person(self, text):
        text = text.replace(" ", "  ")
        possible_names = [name.lower() for name in self.name.split(" ")]
        if "bundchen" in self.name.lower():
            possible_names.append("bündchen")
        if "beyonce" in self.name.lower():
            possible_names.append("beyoncé")
        if "adele" in self.name.lower():
            possible_names.append("adkins") 
        if "katy perry" in self.name.lower():
            possible_names.append("hudson") 
        if "lady gaga" in self.name.lower():
            possible_names.append("germanotta") 
        if "michelle obama" in self.name.lower():
            possible_names.append("robinson")
        if "natalie portman" in self.name.lower():
            possible_names.append("hershlag") 
        if "rihanna" in self.name.lower():
            possible_names.append("fenty")   
        if "victoria beckham" in self.name.lower():
            possible_names.append("adams")                         
        doc = self.spacy_model(text)
        transformed_text = []

        for i, token in enumerate(doc):
            if self.gender == "M":
                if token.text.lower() == "he":
                    transformed_text.append("I")
                elif token.text.lower() == "him":
                    transformed_text.append("me")
                elif token.text.lower() == "his":
                    transformed_text.append("my")
                elif token.text.lower() == "himself":
                    transformed_text.append("myself")
                elif token.text.lower() in possible_names and token.dep_ in ["nsubj", "nsubjpass"]:
                    transformed_text.append("I")
                elif token.text in ["'s", "’s"] and doc[i-1].text.lower() in possible_names:
                    transformed_text[-1] = "my"
                elif token.text.lower() in possible_names and token.dep_ in ["dobj", "dative"]:
                    transformed_text.append("me")                    
                elif token.text.lower() == "their":
                    transformed_text.append("our")
                elif token.text.lower() == "they":
                    transformed_text.append("we")
                else:
                    transformed_text.append(token.text)
            elif self.gender == "F":
                if token.text.lower() == "she":
                    transformed_text.append("I")
                elif token.text.lower() == "her":
                    if i < len(doc)-2 and doc[i+2].dep_ in ["nsubj", "nsubjpass", "dobj", "appos", "dative", "attr", "amod", "nummod", "compound", "pobj", "pcomp"]:
                        transformed_text.append("my")
                    else:
                        transformed_text.append("me")
                elif token.text.lower() == "herself":
                    transformed_text.append("myself")
                elif token.text.lower() in possible_names and token.dep_ in ["nsubj", "nsubjpass"]:
                    transformed_text.append("I")
                elif token.text in ["'s", "’s"] and doc[i-1].text.lower() in possible_names:
                    transformed_text[-1] = "my"
                elif token.text.lower() in possible_names and token.dep_ in ["dobj", "dative"]:
                    transformed_text.append("me")    
                elif token.text.lower() == "their":
                    transformed_text.append("our")
                elif token.text.lower() == "they":
                    transformed_text.append("we")
                else:
                    transformed_text.append(token.text)

        return "".join(transformed_text)

    def question_answer(self, instruction='', knowledge='', chat_his=''):
        instruction = f"Your name is {self.name}. Always answer as helpfully as possible, while being safe. Your answers should not include any harmful, unethical, racist, sexist, toxic, dangerous, or illegal content. Please ensure that your responses are socially unbiased and positive in nature. If a question does not make any sense, or is not factually coherent, explain why instead of answering something not correct. If you don't know the answer to a question, please don't share false information."
        if self.text != "":
            if re.search(re.compile(rf'\b({self.name})\b', flags=re.IGNORECASE), self.text) != None:
              knowledge = self.retrieve_knowledge_assertions(change_person=False)
            else:
              knowledge = self.retrieve_knowledge_assertions()

            query = f"Context: {instruction} {knowledge}\n\nQuestion: {self.text}\n\nAnswer:"
            input_ids = self.QA_tokenizer(f"{query}", truncation=False, return_tensors="pt").input_ids.to(self.QA_model.device)
            outputs = self.QA_model.generate(input_ids, max_length=1024, min_length=8, repetition_penalty=2.5)
            self.text = self.QA_tokenizer.decode(outputs[0], skip_special_tokens=True)
        return self.text

    @staticmethod
    def action_time():
        return f"it's {datetime.datetime.now().time().strftime('%H:%M')}"

    @staticmethod
    def save_kb(kb, filename):
        with open(filename, "wb") as f:
            pickle.dump(kb, f)

    @staticmethod
    def load_kb(filename):
        res = None
        with open(filename, "rb") as f:
            res = pickle.load(f)
        return res