import asyncio
import base64
import itertools
import json
import os
import shutil
import subprocess
import time
import torch
import uvicorn
import cv2
import numpy as np
import pandas_datareader as pdr
import pytesseract
import speech_recognition as sr
import uvicorn
from fastapi import FastAPI, File, UploadFile,Depends, WebSocket, WebSocketDisconnect
from fastapi.middleware.cors import CORSMiddleware
from fastapi.responses import FileResponse,StreamingResponse
from tqdm import tqdm
from transformers import pipeline
from CaesarDetectEntity import CaesarDetectEntity
from CaesarFaceDetection.caesarfd import CaesarFaceDetection
from CaesarHotelBooking.caesarhotelbooking import CaesarHotelBooking
from CaesarObjectDetection.CaesarYolo import CaesarYolo
from CaesarTranslate import CaesarLangTranslate
from CaesarVoice import CaesarVoice
from csv_to_db import ImportCSV
from RequestModels import *
from CaesarFaceRecognition.caesardeepface import CaesarDeepFace
from CaesarAIART.caesaraiart import CaesarAIART
from CaesarHandwriting.caesarhandwriting import CaesarHandWriting
#from CaesarAIMusicLoad.caesaraimusicload import CaesarAITelegramBOT
importcsv = ImportCSV("CaesarAI")
caesaryolo = CaesarYolo()
caesarfacedetectmodel = CaesarFaceDetection()
caesarhandwriting = CaesarHandWriting()
#caesartelgegrambot = CaesarAITelegramBOT()
app = FastAPI()
CURRENT_DIR = os.path.realpath(__file__).replace(f"/main.py","")
#caesaraiart = CaesarAIART(CURRENT_DIR)
app.add_middleware(
CORSMiddleware,
allow_origins=["*"], # can alter with time
allow_credentials=True,
allow_methods=["*"],
allow_headers=["*"],
)
pytesseract.pytesseract.tesseract_cmd = '/usr/bin/tesseract'
@app.get("/")
def caesaraihome():
return "Welcome to CaesarAI's API's and CaesarAINL."
@app.get("/testgpu")
def caesaraihome():
if torch.cuda.is_available():
return "gpu is being used."
else:
return "gpu is not being used."
@app.get("/caesarailogo")
def caesarailogo():
return FileResponse(f"{CURRENT_DIR}/CaesarAILogo.png")
@app.post("/caesarhandwriting")
def caesaraihandwriting(urljson : CaesarAIHandwritingModel):
urljson = dict(urljson)
text = caesarhandwriting.translate(urljson["message"])
return {"message":text}
@app.websocket("/caesarobjectdetectws")
async def caesarobjectdetectws(websocket: WebSocket):
# listen for connections
await websocket.accept()
try:
while True:
contents = await websocket.receive_bytes()
arr = np.frombuffer(contents, np.uint8) # turns the image byte data into numpy array
frame = cv2.imdecode(arr, cv2.IMREAD_UNCHANGED) # turns numpy array into the original image shape and state
image,_,_ = caesaryolo.caesar_object_detect(frame) # Does object detection and returns a numpy array
ret, buffer = cv2.imencode('.png', image) # turns numpy array into buffer
await websocket.send_bytes(buffer.tobytes()) # sends the buffer as bytes
except WebSocketDisconnect:
print("Client disconnected")
@app.websocket("/caesarfacedetectws")
async def caesarfacedetect(websocket: WebSocket):
# listen for connections
await websocket.accept()
try:
while True:
contents = await websocket.receive_bytes()
arr = np.frombuffer(contents, np.uint8) # turns the image byte data into numpy array
frame = cv2.imdecode(arr, cv2.IMREAD_UNCHANGED) # turns numpy array into the original image shape and state
image = caesarfacedetectmodel.detect_face(frame) # Does object detection and returns a numpy array
ret, buffer = cv2.imencode('.png', image) # turns numpy array into buffer
await websocket.send_bytes(buffer.tobytes()) # sends the buffer as bytes
except WebSocketDisconnect:
print("Client disconnected")
"""
@app.get("/getcaesartelegramchatids")
def getcaesartelegramchatid():
try:
chatids = caesartelgegrambot.get_chatids()
return chatids
except Exception as ex:
return {"error":f"{type(ex)},{ex}"}
@app.get("/caesartelegramsendmessage")
def caesartelegramsendmessage(messageinfo: CaesarTelegramMessageModel):
try:
messageinfo = dict(messageinfo)
chat_id = messageinfo["chat_id"]
message = messageinfo["message"]
chatids = caesartelgegrambot.send_message(chat_id,message)
return chatids
except Exception as ex:
return {"error":f"{type(ex)},{ex}"}
"""
@app.post("/caesarfacesnap")
def caesarfacesnap(frames: CaesarOCRHTTPModel):
try:
frames = dict(frames)
image_arr = np.frombuffer(base64.b64decode(frames["frame"]),dtype="uint8")
image = cv2.imdecode(image_arr,flags=cv2.IMREAD_COLOR)
#.reshape(frames["shape"][0],frames["shape"][1],3)
image = caesarfacedetectmodel.detect_face(image,snapcropface=True)
if image == [] or image is None:
return {"frame":"no face was detected."}
elif image != [] or image is None:
x=np.ascontiguousarray(image)
return {'frame': base64.b64encode(x).decode(),"shape":[image.shape[0],image.shape[1]]}
except Exception as ex:
return {"error":f"{type(ex)},{ex}"}
@app.post("/caesaraiart")
def caesarart(promptjson: CaesarAIARTModel):
try:
promptjson = dict(promptjson)
image = CaesarAIART.generate_api(promptjson["prompt"])
return StreamingResponse(content=image, media_type="image/png")
#return StreamingResponse(image, media_type="image/png")#FileResponse(f"{CURRENT_DIR}/CaesarAIART/caesarart.png")
except Exception as ex:
return {"error":f"{type(ex)},{ex}"}
@app.post("/faceauthorizeuser")
def faceauthorizeuser(recogperson: CaesarFaceAuth = Depends(),file: UploadFile = File(...)):
try:
recogperson = dict(recogperson)
auth_file = f"{CURRENT_DIR}/CaesarFaceRecognition/authimages/{recogperson['user']}.jpg"
with open(auth_file, 'wb') as f:
shutil.copyfileobj(file.file, f)
return {"message":f"{recogperson['user']} is authorized for face recognition."}
except Exception as ex:
return {"message": f"{type(ex)},{ex}"}
finally:
file.file.close()
# https://stackoverflow.com/questions/65504438/how-to-add-both-file-and-json-body-in-a-fastapi-post-request
@app.post("/caesarfaceauth")
def caesarfaceauth(recogperson: CaesarFaceAuth = Depends(),file: UploadFile = File(...)):
try:
recogperson = dict(recogperson)
uploaded_file = f"{CURRENT_DIR}/CaesarFaceRecognition/images/temp.jpg"
auth_file = f"{CURRENT_DIR}/CaesarFaceRecognition/authimages/{recogperson['user']}.jpg"
with open(uploaded_file, 'wb') as f:
shutil.copyfileobj(file.file, f)
caeesardeepface = CaesarDeepFace()
result = caeesardeepface.face_authentication(filename1=auth_file,filename2=uploaded_file)
return result
except Exception as ex:
return {"message": f"{type(ex)},{ex}"}
finally:
file.file.close()
@app.websocket("/caesarocrextractionws")
async def caesarocrextractionws(websocket: WebSocket):
# listen for connections
await websocket.accept()
try:
while True:
contents = await websocket.receive_bytes()
target_words = await websocket.receive_json()
target_words = dict(target_words)["target_words"]
arr = np.frombuffer(contents, np.uint8) # turns the image byte data into numpy array
frame = cv2.imdecode(arr, cv2.IMREAD_UNCHANGED) # turns numpy array into the original image shape and state
data = pytesseract.image_to_data(frame, output_type=pytesseract.Output.DICT)
image_copy = frame.copy()
# get all data from the image
data = pytesseract.image_to_data(frame, output_type=pytesseract.Output.DICT)
# print the data
#print(data["text"])
# get all occurences of the that word
word_occurences = [ i for i, word in enumerate(data["text"]) for target in target_words if word.lower() == target]
for occ in word_occurences:
# extract the width, height, top and left position for that detected word
w = data["width"][occ]
h = data["height"][occ]
l = data["left"][occ]
t = data["top"][occ]
# define all the surrounding box points
p1 = (l, t)
p2 = (l + w, t)
p3 = (l + w, t + h)
p4 = (l, t + h)
# draw the 4 lines (rectangular)
image_copy = cv2.line(image_copy, p1, p2, color=(255, 0, 0), thickness=2)
image_copy = cv2.line(image_copy, p2, p3, color=(255, 0, 0), thickness=2)
image_copy = cv2.line(image_copy, p3, p4, color=(255, 0, 0), thickness=2)
image_copy = cv2.line(image_copy, p4, p1, color=(255, 0, 0), thickness=2)
ret, buffer = cv2.imencode('.png', image_copy) # turns numpy array into buffer
await websocket.send_bytes(buffer.tobytes()) # sends the buffer as bytes
except WebSocketDisconnect:
print("Client disconnected")
@app.websocket("/caesarocrws")
async def caesarocrws(websocket: WebSocket):
# listen for connections
await websocket.accept()
try:
while True:
contents = await websocket.receive_bytes()
arr = np.frombuffer(contents, np.uint8) # turns the image byte data into numpy array
frame = cv2.imdecode(arr, cv2.IMREAD_UNCHANGED) # turns numpy array into the original image shape and state
# get the string
string = pytesseract.image_to_string(frame)
# print it
#print(string)
message = json.dumps({"message":string})
ret, buffer = cv2.imencode('.png', frame) # turns numpy array into buffer
await websocket.send_json(message) # sends the buffer as bytes
await websocket.send_bytes(buffer.tobytes()) # sends the buffer as bytes
except WebSocketDisconnect:
print("Client disconnected")
@app.post("/caesarocr")
def caesarocr(frames: CaesarOCRHTTPModel):
# listen for connections
try:
frames = dict(frames)
image_arr = np.frombuffer(base64.b64decode(frames["frame"].replace("data:image/jpeg;base64,","").replace("data:image/png;base64,","")),dtype="uint8")
image = cv2.imdecode(image_arr,flags=cv2.IMREAD_COLOR)
# .reshape(frames["shape"][0],frames["shape"][1],3)
string = pytesseract.image_to_string(image)
return {'message': string}
except Exception as ex:
return {"error":f"{type(ex)},{ex}"}
@app.websocket("/sendvideows")
async def sendvideows(websocket: WebSocket):
# listen for connections
await websocket.accept()
try:
while True:
contents = await websocket.receive_bytes()
arr = np.frombuffer(contents, np.uint8)
#print(arr)
frame = cv2.imdecode(arr, cv2.IMREAD_UNCHANGED)
#print(frame.shape)
#image = caesaryolo.caesar_object_detect(frame)
ret, buffer = cv2.imencode('.png', frame)
#print(buffer)
await websocket.send_bytes(buffer.tobytes())
except WebSocketDisconnect:
print("Client disconnected")
# Done
@app.post("/caesarobjectdetect")
def caesarobjectdetect(frames: CaesarObjectDetectModel):
frames = dict(frames)
image,_,_ = caesaryolo.caesar_object_detect(np.frombuffer(base64.b64decode(frames["frame"]),dtype="uint8").reshape(frames["shape"][0],frames["shape"][1],3))#base64.b64decode(frames["frame"]))
return {'frame': base64.b64encode(image).decode(),"shape":[image.shape[0],image.shape[1]]}
@app.websocket("/caesarobjectdetectvideows")
async def caesarobjectdetectvideows(websocket: WebSocket):
# listen for connections
await websocket.accept()
try:
while True:
video_frames = await websocket.receive_json()
with open(f'{CURRENT_DIR}/CaesarObjectDetection/content.mp4', 'wb') as f:
f.write(base64.b64decode(video_frames["frame"].replace("data:video/mp4;base64,","")))
duration = 20 # seconds
best_min_size = (32000 + 100000) * (1.073741824 * duration) / (8 * 1024)
CaesarYolo.compress_video(f"{CURRENT_DIR}/CaesarObjectDetection/content.mp4", f'{CURRENT_DIR}/CaesarObjectDetection/content_compressed.mp4', best_min_size)
if "content.mp4" in os.listdir(f"{CURRENT_DIR}/CaesarObjectDetection"):
os.remove(f"{CURRENT_DIR}/CaesarObjectDetection/content.mp4")
caesaryolo.video_load('content.mp4')
while True:
image,time_elapsed,end_time = caesaryolo.caesar_object_detect("video")
if image is not None:
#print(image)
ret, buffer = cv2.imencode('.png', image) # turns numpy array into buffer
#png_as_text = base64.b64encode(buffer)
#await websocket.send_bytes(base64.b64encode(buffer).decode("utf-8"))
await websocket.send_json({"time_elapsed":time_elapsed,"end_time":end_time})
#cv2.imshow("image", image)
else:
break
caesaryolo.cap.release()
ffmpeg_command = ["ffmpeg","-y","-i",f"{CURRENT_DIR}/CaesarObjectDetection/output.avi",f"{CURRENT_DIR}/CaesarObjectDetection/output.mp4"]
subprocess.call(ffmpeg_command)
await websocket.send_json({"result":"finished"})
except WebSocketDisconnect:
print("Client disconnected")
# Done
@app.get("/caesarobjectdetectvideoget")
def caesarobjectdetectvideoget():
return FileResponse(f"{CURRENT_DIR}/CaesarObjectDetection/output.mp4")
@app.post("/createcaesaraipi")
def createcaesaraipi(caesar_api_post : CaesarCreateAPIModel):
caesar_api_post = dict(caesar_api_post)
caesarapi_db_exists = list(importcsv.db.caesarapis.find( { "caesarapis" : { "$exists" : "true" } } ))
#print(caesarapi_db)
if len(caesarapi_db_exists) == 0:
importcsv.db.caesarapis.insert_one(caesar_api_post)
return {"message":"caesarapi created."}
elif len(caesarapi_db_exists) > 0:
caesarapi_db = caesarapi_db_exists[0]
#print(caesarapi_db)
for apis in caesar_api_post["caesarapis"]:
if apis not in caesarapi_db["caesarapis"]:
caesarapi_db["caesarapis"].append(apis)
elif apis in caesarapi_db["caesarapis"]:
continue
importcsv.db.caesarapis.replace_one({ "caesarapis" : { "$exists" : "true" } },caesarapi_db)
return {"message":"caesarapi stored."}
# Done
@app.get("/getcaesaraipi")
def getcaesaraipi():
try:
caesarapi_db_exists = list(importcsv.db.caesarapis.find( { "caesarapis" : { "$exists" : "true" } } ))[0]
del caesarapi_db_exists["_id"]
return caesarapi_db_exists
except KeyError as kex:
return {"error":f"Api doesn't exist"}
# Done
@app.post("/triggerapi")
def triggerapi(user_trigger : TriggerAPIModel):
user_trigger = dict(user_trigger)["user_trigger"]
try:
caesarapi_db_exists = list(importcsv.db.caesarapis.find( { "caesarapis" : { "$exists" : "true" } } ))[0]
except KeyError as kex:
return {"error":"Api doesn't exist"}
try:
triggered_apis = [i for i in caesarapi_db_exists["caesarapis"] if i["triggerwords"] in user_trigger]
triggered_api = triggered_apis[0]
return triggered_api
except (IndexError,KeyError) as kex:
return {"message":"sorry couldn't understand what api you want."}
# Done
@app.post("/caesaraihotelbookings")
def caesaraihotelbookings(hotelbookings_json: CaesarHotelBookingsModel):
"""
params = {
"city":city,
"checkin_date":"2023-8-01",
"checkout_date":"2023-8-08",
"purpose":"work",
"num_of_adults":10,
"num_of_rooms":5,
"num_of_children":0,
"page_num":i
}
"""
def get_price_range(bookings_json,city,range,):
def condition(dic):
''' Define your own condition here'''
try:
price = dic['assumed_final_price']
return price <= range
except KeyError as kex:
return False
#print(bookings_json)
bookings = bookings_json[f"{city.lower()}_bookings"]
filtered = [d for d in bookings if condition(d)]
return filtered
try:
overall_booking_info = []
hotelbookings_json = dict(hotelbookings_json)
try:
exclude_whole = hotelbookings_json["exclude_whole"]
except KeyError as kex:
exclude_whole = None
city = hotelbookings_json["city"]
price_range = hotelbookings_json["price_range"]
print(f"Extracting flight data for {city}...")
for i in tqdm(range(1,hotelbookings_json["num_of_pages"]+1)):
params = {
"city":city,
"checkin_date":hotelbookings_json["checkin_date"],
"checkout_date":hotelbookings_json["checkout_date"],
"purpose":hotelbookings_json["purpose"],
"num_of_adults":hotelbookings_json["num_of_adults"],
"num_of_rooms":hotelbookings_json["num_of_rooms"],
"num_of_children":hotelbookings_json["num_of_children"],
"page_num":i
}
url = CaesarHotelBooking.create_url(**params)
bookinginfo = CaesarHotelBooking.caesar_get_hotel_info(url)
overall_booking_info.append(bookinginfo)
full_bookings = list(itertools.chain(*overall_booking_info))
price_range_bookings = get_price_range({f"{city.lower()}_bookings":full_bookings},city,price_range)
if exclude_whole == "true":
return {"caesaroutput":{"caesarbookings":price_range_bookings}}
#return {f"{city.lower()}_bookings_lower_than_{price_range}":price_range_bookings}
return {"caesaroutput":{"caesarbookings":full_bookings}}
#return {"caesaroutput":full_bookings}
#return {f"{city.lower()}_bookings":full_bookings,f"{city.lower()}_bookings_lower_than_{price_range}":price_range_bookings}
except Exception as ex:
return {"error":f"{type(ex)}{ex}"}
@app.post("/caesarlangtranslate")
def caesarlangtranslate(translate_json: CaesarLangTranslateModel):
try:# hello
translate_json = dict(translate_json)
text = translate_json["caesartranslate"]
language = "en"
try:
responsejson = translate_json["response"]
language = translate_json["language"]
try:
triggerword = translate_json["triggerword"]
caesarlang = CaesarDetectEntity()
text,language = caesarlang.run(triggerword,text,caesarlang.main_entities[triggerword])
except KeyError as kex:
pass
if responsejson == "true":
response = True
elif responsejson == "false":
response = False
else:
response = False
except KeyError as kex:
response = False
caesarlangtranslate = CaesarLangTranslate()
original,translation,original_language,destination_language = caesarlangtranslate.translate(text,lang=language,response=response)
return {"caesaroutput":translation,"caesartranslation":{"original":original,"translation":translation,"original_language":original_language,"destination_language":destination_language}}
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
@app.get("/caesarlangtranslate")
def caesarlangtranslateget(text:str,triggerword:str,responsejson:str):
try:# hello
caesarlang = CaesarDetectEntity()
try:
text,language = caesarlang.run(triggerword,text,caesarlang.main_entities[triggerword])
if responsejson == "true":
response = True
elif responsejson == "false":
response = False
else:
response = False
except KeyError as kex:
response = False
caesarlangtranslate = CaesarLangTranslate()
original,translation,original_language,destination_language = caesarlangtranslate.translate(text,lang=language,response=response)
return {"caesaroutput":translation,"caesartranslation":{"original":original,"translation":translation,"original_language":original_language,"destination_language":destination_language}}
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
@app.post("/caesarsr")
def caesarsr(audio_data: CaesarSRModel):
transcript = ""
try:
#print("FORM DATA RECEIVED")
# TODO Make it show that the .3pg extension is adaptable
audiobase64json = dict(audio_data)
decode_bytes = base64.b64decode(audiobase64json["audio_data"].replace("data:video/3gpp;base64,",""))
with open("temp.3pg", "wb") as wav_file:
wav_file.write(decode_bytes)
os.system('ffmpeg -y -i temp.3pg understand.wav')
recognizer = sr.Recognizer()
audioFile = sr.AudioFile("understand.wav")
with audioFile as source:
data = recognizer.record(source)
transcript = recognizer.recognize_google(data, key=None)
return {"message":transcript}
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
@app.post("/caesarvoice")
def caesarvoice(voice_input : CaesarVoiceModel):
try:
voice_input = dict(voice_input)
#try:
filename = voice_input["filename"]
lang = voice_input["language"]
if filename == None:
filename = "temp.wav"
if lang == None:
lang = "en"
CaesarVoice.synthesise(voice_input["text"],filename,lang=lang)
return {"message":"voice syntheized"}# send_file(filename,"audio/x-wav")
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
@app.post("/caesarsummarize")
def caesarsummarize(json_input : CaesarSummarizeModel):
try:
json_input = dict(json_input)
original_text = json_input["text"]
summarization = pipeline("summarization")
summary_text = summarization(original_text)[0]['summary_text']
return {"caesaroutput":summary_text}# send_file(filename,"audio/x-wav")
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
@app.post("/caesarstockinfo")
def caesarstockinfo(json_input: CaesarStockInfoModel):
try:
json_input = dict(json_input)
# import AAPL stock price
stock_tick = json_input["stock"]
start_date = json_input["start_date"]
end_date = json_input["end_date"]
df = pdr.get_data_yahoo(stock_tick, start=start_date,end=end_date)
print(df)
return {"caesaroutput":str(df.to_csv(index=False))}# send_file(filename,"audio/x-wav")
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
@app.get("/caesarvoiceget")
def caesarvoiceget():
try:
filename = "temp.wav"
return FileResponse(filename,media_type="audio/x-wav")
except Exception as ex:
return {"error":f"{type(ex)}-{ex}"}
async def main():
config = uvicorn.Config("main:app", port=7860, log_level="info",host="0.0.0.0",reload=True)
server = uvicorn.Server(config)
await server.serve()
if __name__ == "__main__":
#asyncio.run(main())
uvicorn.run("main:app",port=7860, log_level="info",host="0.0.0.0",reload=True)