import argparse
import multiprocessing as mp
import os
import threading as th
import time
from datetime import datetime
from queue import Queue
import numpy as np

os.environ['DISPLAY'] = ':0'

import cv2

inputQueue = mp.Queue()
vehicleDetectionQueue = mp.Queue()
outputQueue = mp.Queue()
IMAGE_HEIGHT = mp.Value('i',0)
IMAGE_WIDTH = mp.Value('i',0)

class ReadFrame(th.Thread):
    global inputQueue
    global IMAGE_HEIGHT,IMAGE_WIDTH
    def __init__(self,source,name='Input thread',custom_id=1) -> None:
        super().__init__()
        self.frameId = 1
        self.stopped = False
        self.grabbed = True
        self.name = f'{name} {custom_id}'
        self.videoCaptureObject = cv2.VideoCapture(source)
        if(self.videoCaptureObject.isOpened()):
            IMAGE_HEIGHT.value = int(self.videoCaptureObject.get(cv2.CAP_PROP_FRAME_HEIGHT))
            IMAGE_WIDTH.value = int(self.videoCaptureObject.get(cv2.CAP_PROP_FRAME_WIDTH))
        print(f'Reading from source = {source}')
    
    def run(self):
        while (self.grabbed):
            (self.grabbed, self.frame) = self.videoCaptureObject.read()
            IMAGE_HEIGHT.value = int(self.videoCaptureObject.get(cv2.CAP_PROP_FRAME_HEIGHT))
            IMAGE_WIDTH.value = int(self.videoCaptureObject.get(cv2.CAP_PROP_FRAME_WIDTH))
            inputQueue.put((self.frame,self.frameId))
            print(f"{self.name} frame added with id {self.frameId}\n")
            self.frameId+=1
        print('--Done reading frames--\n')
        self.videoCaptureObject.release()
        return
            
class VehicleDetection(mp.Process):
    global inputQueue
    global vehicleDetectionQueue
    def __init__(self,name='Vehicle Detection Process',custom_id=1):
        super(VehicleDetection,self).__init__()
        self.name = f'{name} {custom_id}'
    
    def run(self):
        while (True):
            if(inputQueue.qsize() == 0):
                vehicleDetectionQueue.put(None)
                print(f'{self.name} exiting !! \n')
                return
            (frame,frameId) = inputQueue.get()
            print(f"{self.name} Got frame with ID {frameId} qsize = {inputQueue.qsize()}\n")
            #do some processing here.
            time.sleep(.5)
            vehicleDetectionQueue.put((frame,frameId))

class NumberPlateOcr(mp.Process):
    global vehicleDetectionQueue
    global outputQueue
    def __init__(self,name='Number plate OCR Process',custom_id=1):
        super(NumberPlateOcr,self).__init__()
        self.name=f'{name} {custom_id}'

    def run(self):
        while True:
            value = vehicleDetectionQueue.get()
            if(value == None):
                print(f'{self.name} exiting !! \n')
                outputQueue.put(None)
                return
            (frame,frameId) = value
            print(f"{self.name} Got frame with ID {frameId}\n")
            #do some processing here.
            time.sleep(.25)
            outputQueue.put((frame,frameId))
        
class OutputFrame(th.Thread):
    global IMAGE_HEIGHT,IMAGE_WIDTH
    global outputQueue
    def __init__(self,name='output thread',custom_id=1,outputfilename="output.avi"):
        super().__init__()
        self.name = f'{name} {custom_id}'
        self.outputfilename = outputfilename
        print(f'frame size {IMAGE_HEIGHT.value} {IMAGE_WIDTH.value}')
        self.videoWriterObject = cv2.VideoWriter(outputfilename,cv2.VideoWriter_fourcc(*'MJPG'),30,(IMAGE_WIDTH.value,IMAGE_HEIGHT.value))
        self.winName = "DISPLAY"

    def run(self):
        cv2.namedWindow(self.winName,cv2.WINDOW_NORMAL)
        while True:
            try:
                value = outputQueue.get()
                if(value == None):
                    return
                (frame,frameId) = value
                print(f'{self.name} got frame with ID {frameId} shape = {frame.shape}')
                cv2.imshow(self.winName,frame)
                self.videoWriterObject.write(frame)
            except(AttributeError):
                continue

                
        
if __name__ == '__main__':
    import cProfile

    app_profiler = cProfile.Profile()

    parser = argparse.ArgumentParser(description='BitSilica Traffic Analysis Solution')
    parser.add_argument('--image', help=' Full Path to image file.')
    parser.add_argument('--video', help='Full Path to video file.')
    parser.add_argument('--realtime',help='Camera Connected Input')
      
    args = parser.parse_args()
    #Name of the video file.
    outputvideo = f'output {os.path.basename(args.video)[:-4]} {datetime.now()}.avi'
    print(f'-----> Writing to file {outputvideo} <-------\n')
    #enable profiler here.
    app_profiler.enable()

    readFramesThread = ReadFrame(args.video)
    vehicleDetectionProcess = VehicleDetection()
    numberPlateOcrProcess = NumberPlateOcr()
    outputframeThread = OutputFrame(outputfilename = outputvideo)
    readFramesThread.start()
    time.sleep(.25)
    vehicleDetectionProcess.start()
    numberPlateOcrProcess.start()
    outputframeThread.start()

    print(f'{vehicleDetectionProcess.name} {vehicleDetectionProcess.pid} \n')
    print(f'{numberPlateOcrProcess.name} {numberPlateOcrProcess.pid} \n')
    
        
    readFramesThread.join()
    print(f'readframesthread {readFramesThread.is_alive()}\n')
    vehicleDetectionProcess.join()
    print(f'vehicleDetectionProcess {vehicleDetectionProcess.is_alive()}\n')
    numberPlateOcrProcess.join()
    print(f'numberPlateOcrProcess {numberPlateOcrProcess.is_alive()}\n')

    outputframeThread.join()
    print(f'{outputframeThread.name} {outputframeThread.is_alive()}')
    

    #disable profiler here.
    app_profiler.disable()
    
    profile_name = str('{}.prof'.format(os.path.basename(args.video)[0:-4]))
    print("------------------------\nEnd of execution, dumping profile stats\n-------------------------")
    app_profiler.dump_stats(profile_name)