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main.py
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main.py
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import streamlit as st
import cv2
import mediapipe as mp
import numpy as np
import time
from wolfram_calculator import compute_latex_expression #set api key
from segmentation import segment_and_predict
st.set_page_config(
page_title="CodeJam",
layout="wide",
initial_sidebar_state="expanded",
)
camera_view_placeholder = st.empty()
def open_camera(camera_view_placeholder):
margin_left = 150
max_x, max_y = 250 + margin_left, 50
curr_tool = "select tool"
start_time = True
rad = 30
thick = 8
prevx, prevy = 0,0
# screenshot the mask
def save_mask_as_image(mask, file_format='jpeg'):
filename = f'mask_capture.{file_format}'
cv2.imwrite(filename, mask, [int(cv2.IMWRITE_JPEG_QUALITY), 80])
def get_tool(x):
# determine tool to use
if x < 50 + margin_left:
return "draw"
elif x < 100 + margin_left:
return "erase"
elif x < 150 + margin_left:
return "clear"
elif x < 200 + margin_left:
return "solve"
else:
return "save"
#y corresponds to the landmarks of the middle finger's landmark
def middle_finger_raised(y12, y9):
return (y9 - y12) > 40
def display_numbers(list_numbers):
#list number is stored as a list of int, but above 9 it should be operators
int_to_str = {
'0': '0',
'1': '1',
'2': '2',
'3': '3',
'4': '4',
'5': '5',
'6': '6',
'7': '7',
'8': '8',
'9': '9',
'10': "+",
'11': "/",
'12': "=",
'13': '*',
'14': '-'
}
#word on screen
output = ""
if len(list_numbers) > 2:
contains_operator = False
for i in list_numbers:
if int(i) > 9:
contains_operator = True
if contains_operator:
operator = max(list_numbers)
index = list_numbers.index(operator) # index of operator
if index == 1:
for key in list_numbers:
output += int_to_str[str(key)]
else:
list_numbers[index], list_numbers[1] = list_numbers[1], list_numbers[index]
for key in list_numbers:
output += int_to_str[str(key)]
if not contains_operator:
for key in list_numbers:
output += int_to_str[str(key)]
return output
else: # 1 or 2 characters only
for key in list_numbers:
output += int_to_str[str(key)]
return output
#from mediapipe
hands = mp.solutions.hands
hand_landmark = hands.Hands(min_detection_confidence=0.8, min_tracking_confidence=0.5, max_num_hands=1)
draw = mp.solutions.drawing_utils
tools = cv2.imread("tools.png")
tools = tools.astype('uint8')
mask = np.ones((480, 640))*255 # Create a mask of black ones that is scaled to camera
mask = mask.astype('uint8')
cap = cv2.VideoCapture(0)
while True:
_, frm = cap.read()
frm = cv2.flip(frm, 1)
rgb = cv2.cvtColor(frm, cv2.COLOR_BGR2RGB) # default is BGR
op = hand_landmark.process(rgb)
if not _:
st.write("ended")
break
if op.multi_hand_landmarks:
for i in op.multi_hand_landmarks:
draw.draw_landmarks(frm, i, hands.HAND_CONNECTIONS)
x, y = int(i.landmark[8].x*640), int(i.landmark[8].y*480) # Index and Middle fingers
if x < max_x and y < max_y and x > margin_left: # Check if Index is within tool box
if start_time:
ctime = time.time()
start_time = False
ptime = time.time()
cv2.circle(frm, (x, y), rad, (0 , 255, 0), 2) # Selecting design
rad -= 1
if (ptime - ctime) > 0.8:
curr_tool = get_tool(x)
print("your current tool set to : ", curr_tool)
start_time = True
rad = 30
else:
start_time = True
rad = 30
if curr_tool == "draw":
y12 = int(i.landmark[12].y * 480)
y9 = int(i.landmark[9].y * 480)
if middle_finger_raised(y12, y9):
cv2.line(mask, (prevx, prevy), (x, y), 0, thick)
prevx, prevy = x, y
else:
prevx = x
prevy = y
elif curr_tool == "erase":
y12 = int(i.landmark[12].y*480)
y9 = int(i.landmark[9].y*480)
if middle_finger_raised(y12, y9):
cv2.circle(frm, (x, y), 30, (0,0,0), -1)
cv2.circle(mask, (x, y), 30, 255, -1)
elif curr_tool == 'solve':
save_mask_as_image(mask, 'jpeg')
list_numbers = segment_and_predict()
output = display_numbers(list_numbers)
answer = compute_latex_expression(output, 'QY6LX3-5UPVEGR9Y9')
st.sidebar.latex(f"{output} \quad ={answer}")
curr_tool = 'solved'
elif curr_tool == 'save':
save_mask_as_image(mask, 'jpeg')
list_numbers = segment_and_predict() #stores as a list of integer
output = display_numbers(list_numbers)
st.sidebar.latex(output)
curr_tool = 'saved'
elif curr_tool == 'clear':
mask.fill(255)
op = cv2.bitwise_and(frm, frm, mask=mask)
# only the pixels that correspond to non-zero values in the mask are retained from the original frm a.k.a colors
frm[:, :, 2] = op[:, :, 2] # red and green channel of frame to op
frm[:, :, 1] = op[:, :, 1]
frm = cv2.cvtColor(frm, cv2.COLOR_BGR2RGB)
frm[:max_y, margin_left:max_x] = cv2.addWeighted(tools, 0.7, frm[:max_y, margin_left:max_x], 0.3, 0) # put tool box
cv2.putText(frm, curr_tool, (270 + margin_left, 30), cv2.FONT_HERSHEY_COMPLEX_SMALL, 1, (35, 28, 221), 1)
camera_view_placeholder.image(frm)
if cv2.waitKey(1) == 27:
cv2.destroyAllWindows()
cap.release()
break
##############
#MAIN PROGRAM#
##############
def main():
""" Create three column spaces for the following sections: sidebar, main camera, and the instructions"""
col1, col2, col3 = st.columns([1, 5, 2])
with col1:
cs_sidebar()
with col2:
cs_body()
with col3:
top = st.container()
top.subheader("Select tools with 1 finger")
bot = st.container()
pics, captions = bot.columns([1,1.8])
with pics:
info_pics()
with captions:
info_captions()
def cs_sidebar():
""" Sidebar items """
st.sidebar.markdown('<div style="font-size:50px;">Magic Chalk</div>', unsafe_allow_html=True)
st.sidebar.code('Transcript')
return None
def info_pics():
""" Images for the instructions """
st.image('Instructions_pic/draw.png')
st.image('instructions_pic/erase.png')
st.image('instructions_pic/clear.png')
st.image('instructions_pic/solution.png')
st.image('instructions_pic/bookmark.png')
def info_captions():
""" Written instructions"""
st.subheader('Draw Tool (2 fingers)')
st.subheader("")
st.subheader('Erase Tool (2 fingers)')
st.subheader("")
st.subheader('Clear Canvas')
st.subheader("")
st.subheader('Solve The Equation')
st.subheader("")
st.subheader('Bookmark')
def cs_body():
""" Camera space and buttons """
#col1, col2 = st.columns([2,1])
camera_view_placeholder = st.empty() # Empty space for camera
open_camera_button = st.button("Open camera", type="primary")
stop_button_pressed = st.button("Stop")
if open_camera_button:
# OPEN THE CAMERA
open_camera(camera_view_placeholder)
st.markdown("Made by William Kiem Lafond, Kevin Liu, Orlando Qiu, and David Zhou")
if __name__ == '__main__':
main()
hide_streamlit_style = """
<style>
#MainMenu {visibility: hidden;}
footer {visibility: hidden;}
</style>
"""
st.markdown(hide_streamlit_style, unsafe_allow_html = True)