import cv2
import numpy as np
from ultralytics.engine.results import Results

from models.detection.detector import Detector
from models.detection.board_manager import BoardManager
from models.detection.pieces_manager import PiecesManager


class DetectionService:

    edges_detector : Detector
    pieces_detector : Detector

    board_manager : BoardManager
    pieces_manager : PiecesManager

    scale_size : tuple[int, int]

    def __init__(self):
        self.edges_detector = Detector("../assets/models/edges.pt")
        self.pieces_detector = Detector("../assets/models/unified-nano-refined.pt")

        self.pieces_manager = PiecesManager()
        self.board_manager = BoardManager()
        self.scale_size = (800, 800)


    def run_complete_detection(self, frame : np.ndarray, display=False) -> dict[str, list[Results]] :
        pieces_prediction = self.run_pieces_detection(frame)
        edges_prediction = self.run_edges_detection(frame)

        if display:
            edges_annotated_frame = edges_prediction[0].plot()
            pieces_annotated_frame = pieces_prediction[0].plot(img=edges_annotated_frame)
            self.__display_frame(pieces_annotated_frame)

        return { "edges" : edges_prediction, "pieces" : pieces_prediction}


    def run_pieces_detection(self, frame : np.ndarray, display=False) -> list[Results]:
        prediction = self.pieces_detector.make_prediction(frame)
        if display:
            self.__display_frame(prediction[0].plot())
        return prediction


    def run_edges_detection(self, frame : np.ndarray, display=False) -> list[Results]:
        prediction = self.edges_detector.make_prediction(frame)
        if display:
            self.__display_frame(prediction[0].plot())
        return prediction


    def get_fen(self, frame : np.ndarray) -> str | None:
        result = self.run_complete_detection(frame)

        edges_prediction = result["edges"]
        pieces_prediction = result["pieces"]

        warped_corners, matrix = self.board_manager.process_frame(edges_prediction[0], frame, self.scale_size)
        if matrix is None:
            return None

        detections = self.pieces_manager.extract_pieces(pieces_prediction)

        board = self.pieces_manager.pieces_to_board(detections, warped_corners, matrix, self.scale_size)

        return self.pieces_manager.board_to_fen(board)


    def __display_frame(self, frame : np.ndarray):
        cv2.namedWindow("Frame", cv2.WINDOW_NORMAL)
        cv2.resizeWindow("Frame", self.scale_size[0], self.scale_size[1])
        cv2.imshow("Frame", frame)
        cv2.waitKey(0)
        cv2.destroyAllWindows()
        return


if __name__ == "__main__" :
    import os
    import random

    service = DetectionService()

    img_folder = "../training/datasets/pieces/unified/test/images/"

    test_images = os.listdir(img_folder)

    rnd = random.randint(0, len(test_images) - 1)
    img_path = os.path.join(img_folder, test_images[rnd])

    image = cv2.imread(img_path)

    fen = service.get_fen(image)
    print(fen)

    service.run_complete_detection(image, display=True)