Boa tarde! Eu preciso de uma variável global em uma função para ser usada em outra função, porém, quando tento declarar essa variável como variável global, emite o erro "Statement expected, found Py:EQ", isso na linha onde tem o trecho de código global id, confianca = reconhecedor.predict(imagemFace)
especificamente em cima do sinal de = na linha 53. Como faço para corrigir este erro?
# install opencv "pip install opencv-python"
import cv2
# distance from camera to object(face) measured
# centimeter
Known_distance = 76.2
# width of face in the real world or Object Plane
# centimeter
Known_width = 14.3
# Colors
GREEN = (0, 255, 0)
RED = (0, 0, 255)
WHITE = (255, 255, 255)
BLACK = (0, 0, 0)
# defining the fonts
fonts = cv2.FONT_HERSHEY_COMPLEX
# face detector object
face_detector = cv2.CascadeClassifier("haarcascade_frontalface_default.xml")
# focal length finder function
def Focal_Length_Finder(measured_distance, real_width, width_in_rf_image):
# finding the focal length
focal_length = (width_in_rf_image * measured_distance) / real_width
return focal_length
# distance estimation function
def Distance_finder(Focal_Length, real_face_width, face_width_in_frame):
distance = (real_face_width * Focal_Length) / face_width_in_frame
# return the distance
return distance
def microExpressoesFaciais(reconhecedor, largura, altura):
font = cv2.FONT_HERSHEY_COMPLEX_SMALL
detectorFace = cv2.CascadeClassifier("haarcascade_frontalface_default.xml")
camera = cv2.VideoCapture(0)
reconhecedor = cv2.face.EigenFaceRecognizer_create()
reconhecedor.read("classificadorEigen.yml")
largura, altura = 220, 220
while (True):
conectado, imagem = camera.read()
# Conversão em escala de cinza
imagemCinza = cv2.cvtColor(imagem, cv2.COLOR_BGR2GRAY)
facesDetectadas = detectorFace.detectMultiScale(imagemCinza,scaleFactor=1.5, minSize=(100, 100))
for (x, y, l, a) in facesDetectadas:
imagemFace = cv2.resize(imagemCinza[y:y + a, x:x + l], (largura, altura))
cv2.rectangle(imagem, (x, y), (x + l, y + a), (0,0,255), 2)
global id, confianca = reconhecedor.predict(imagemFace)
#Se ID é igual a 1, emite a mensagem "Seguro sair" se não, emite a mensagem "Área hostil"
if id == 1:
aviso = "Seguro sair"
else:
aviso = "Area hostil"
cv2.putText(imagem, aviso, (x,y +(a+30)), font, 2, (0,0,255))
return aviso
def face_data(image):
face_width = 0 # making face width to zero
# converting color image to gray scale image
gray_image = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
# detecting face in the image
faces = face_detector.detectMultiScale(gray_image, 1.3, 5)
# looping through the faces detect in the image
# getting coordinates x, y , width and height
for (x, y, h, w) in faces:
# draw the rectangle on the face
cv2.rectangle(image, (x, y), (x + w, y + h), GREEN, 2)
# getting face width in the pixels
face_width = w
# return the face width in pixel
return face_width
# reading reference_image from directory
ref_image = cv2.imread("Ref_image.jpg")
# find the face width(pixels) in the reference_image
ref_image_face_width = face_data(ref_image)
# get the focal by calling "Focal_Length_Finder"
# face width in reference(pixels),
# Known_distance(centimeters),
# known_width(centimeters)
Focal_length_found = Focal_Length_Finder(
Known_distance, Known_width, ref_image_face_width)
print(Focal_length_found)
# show the reference image
cv2.imshow("ref_image", ref_image)
# initialize the camera object so that we
# can get frame from it
cap = cv2.VideoCapture(0, cv2.CAP_DSHOW)
# looping through frame, incoming from
# camera/video
while True:
# reading the frame from camera
_, frame = cap.read()
# calling face_data function to find
# the width of face(pixels) in the frame
face_width_in_frame = face_data(frame)
# check if the face is zero then not
# find the distance
if face_width_in_frame != 0:
# finding the distance by calling function
# Distance finder function need
# these arguments the Focal_Length,
# Known_width(centimeters),
# and Known_distance(centimeters)
Distance = Distance_finder(
Focal_length_found, Known_width, face_width_in_frame)
if Distance <= 50 and id:
print("Alerta nível S!")
# draw line as background of text
cv2.line(frame, (30, 30), (230, 30), RED, 32)
cv2.line(frame, (30, 30), (230, 30), BLACK, 28)
# Drawing Text on the screen
cv2.putText(
frame, f"Distance: {round(Distance, 2)} CM", (30, 35),
fonts, 0.6, GREEN, 2)
# show the frame on the screen
cv2.imshow("frame", frame)
# quit the program if you press 'q' on keyboard
if cv2.waitKey(1) == ord("q"):
break
# closing the camera
cap.release()
# closing the windows that are opened
cv2.destroyAllWindows()