import requests
import structlog
import openai
import os
import random
import tiktoken
import enum
import time
import retrying
import IPython.display as display
from base64 import b64decode
import base64
from io import BytesIO
import PIL
import PIL.Image
import PIL.ImageDraw
import PIL.ImageFont
import gradio as gr


logger = structlog.getLogger()
weather_api_key = os.environ['WEATHER_API']
openai.api_key = os.environ.get("OPENAI_KEY", None)

animals = [x.strip() for x in open('animals.txt').readlines()]
art_styles = [x.strip() for x in open('art_styles.txt').readlines()]


class Chat:
    class Model(enum.Enum):
        GPT3_5 = "gpt-3.5-turbo"
        GPT_4  = "gpt-4"

    def __init__(self, system, max_length=4096//2):
        self._system = system
        self._max_length = max_length
        self._history = [
            {"role": "system", "content": self._system},
        ]

    @classmethod
    def num_tokens_from_text(cls, text, model="gpt-3.5-turbo"):
        """Returns the number of tokens used by some text."""
        encoding = tiktoken.encoding_for_model(model)
        return len(encoding.encode(text))
    
    @classmethod
    def num_tokens_from_messages(cls, messages, model="gpt-3.5-turbo"):
        """Returns the number of tokens used by a list of messages."""
        encoding = tiktoken.encoding_for_model(model)
        num_tokens = 0
        for message in messages:
            num_tokens += 4  # every message follows <im_start>{role/name}\n{content}<im_end>\n
            for key, value in message.items():
                num_tokens += len(encoding.encode(value))
                if key == "name":  # if there's a name, the role is omitted
                    num_tokens += -1  # role is always required and always 1 token
        num_tokens += 2  # every reply is primed with <im_start>assistant
        return num_tokens

    @retrying.retry(stop_max_attempt_number=5, wait_fixed=2000)
    def _msg(self, *args, model=Model.GPT3_5.value, **kwargs):
        return openai.ChatCompletion.create(
            *args,
            model=model,
            messages=self._history,
            **kwargs
        )
    
    def message(self, next_msg=None, **kwargs):
        # TODO: Optimize this if slow through easy caching
        while len(self._history) > 1 and self.num_tokens_from_messages(self._history) > self._max_length:
            logger.info(f'Popping message: {self._history.pop(1)}')
        if next_msg is not None:
            self._history.append({"role": "user", "content": next_msg})
        logger.info('requesting openai...')
        resp = self._msg(**kwargs)
        logger.info('received openai...')
        text = resp.choices[0].message.content
        self._history.append({"role": "assistant", "content": text})
        return text

class Weather:
    def __init__(self, zip_code='10001', api_key=weather_api_key):
        self.zip_code = zip_code
        self.api_key = api_key

    def get_weather(self):
        url = f"https://api.weatherapi.com/v1/forecast.json?q={self.zip_code}&days=1&lang=en&aqi=yes&key={self.api_key}"
        headers = {'accept': 'application/json'}
        return requests.get(url, headers=headers).json()

    def get_info(self):
        weather = self.get_weather()
        curr_hour = None
        next_hour = None
        for hour_data in weather['forecast']['forecastday'][0]["hour"]:
            if abs(hour_data["time_epoch"] - time.time()) < 60 * 60:
                if curr_hour is None: curr_hour = hour_data
                next_hour = hour_data
        return {
            "now": weather["current"],
            "day": weather["forecast"]["forecastday"][0]["day"],
            "curr_hour": curr_hour,
            "next_hour": next_hour,
        }


class Image:
    class Size(enum.Enum):
        SMALL = "256x256"
        MEDIUM = "512x512"
        LARGE = "1024x1024"

    @classmethod
    @retrying.retry(stop_max_attempt_number=5, wait_fixed=2000)
    def create(cls, prompt, n=1, size=Size.SMALL):
        logger.info('requesting openai.Image...')
        resp = openai.Image.create(prompt=prompt, n=n, size=size.value, response_format='b64_json')
        logger.info('received openai.Image...')
        if n == 1: return resp["data"][0]
        return resp["data"]


def overlay_text_on_image(img, text, position, text_color=(255, 255, 255), box_color=(0, 0, 0, 128)):
    # Convert the base64 string back to an image
    if isinstance(img, str) or isinstance(img, bytes):
        img_bytes = base64.b64decode(img)
        img = PIL.Image.open(BytesIO(img_bytes))

    # Get image dimensions
    img_width, img_height = img.size

    # Create a ImageDraw object
    draw = PIL.ImageDraw.Draw(img)
    
    # Reduce the font size until it fits the image width or height
    l, r = 1, 50
    while l < r:
        font_size = (l + r) // 2
        font = PIL.ImageFont.truetype("/System/Library/Fonts/NewYork.ttf", font_size)
        left, upper, right, lower = draw.textbbox((0, 0), text, font=font)
        text_width = right - left
        text_height = lower - upper
        if text_width <= img_width and text_height <= img_height:
            l = font_size + 1
        else:
            r = font_size - 1
    font_size = max(l-1, 1)

    text_width, text_height = draw.textsize(text, font=font)

    if position == 'top-left':
        x, y = 0, 0
    elif position == 'top-right':
        x, y = img_width - text_width, 0
    elif position == 'bottom-left':
        x, y = 0, img_height - text_height
    elif position == 'bottom-right':
        x, y = img_width - text_width, img_height - text_height
    else:
        raise ValueError("Position should be 'top-left', 'top-right', 'bottom-left' or 'bottom-right'.")

    # Draw a semi-transparent box around the text
    draw.rectangle([x, y, x + text_width, y + text_height], fill=box_color)

    # Draw the text on the image
    draw.text((x, y), text, font=font, fill=text_color)

    return img


class WeatherDraw:
    def clean_text(self, weather_info):
        chat = Chat("Given the following weather conditions, write a very small, concise plaintext summary that will overlay on top of an image.")
        text = chat.message(str(weather_info))
        return text

    def generate_image(self, weather_info, **kwargs):
        animal = random.choice(animals)
        logger.info(f"Got animal {animal}")
        chat = Chat(f'''
Given the following weather conditions, write a plaintext, short, and vivid description of an
adorable {animal} in the weather conditions doing a human activity matching the weather.
Only write the short description and nothing else.
Do not include specific numbers.'''.replace('\n', ' '))
        description = chat.message(str(weather_info))
        prompt = f'{description}. Adorable, cute, 4k, Award winning, in the style of {random.choice(art_styles)}'
        logger.info(prompt)
        img = Image.create(prompt, **kwargs)
        return img["b64_json"], prompt

    def step_one_forecast(self, weather_info, **kwargs):
        img, txt = self.generate_image(weather_info, **kwargs)
        # text = self.clean_text(weather_info)
        # return overlay_text_on_image(img, text, 'bottom-left')
        return img, txt

    def step(self, zip_code='10001', **kwargs):
        forecast = Weather(zip_code).get_info()
        images, texts = [], []
        for time, data in forecast.items():
            img, txt = overlay_text_on_image(self.step_one_forecast(data, **kwargs), time, 'top-right')
            images.append(img)
            texts.append(txt)
        return create_collage(*images), *texts


# Define Gradio interface
iface = gr.Interface(fn=WeatherDraw().step, 
                     inputs=gr.inputs.Textbox(label="Enter Zipcode"), 
                     outputs=[gr.outputs.Image(), "text", "text", "text", "text"],
                     title="US Zipcode Weather",
                     description="Enter a US Zipcode and get some weather.")

# Run the interface
iface.launch()