I am creating a game, where it will ask the user to click a series of circles in numerical order. My question is between lines no. 91 and no. 110: why does the recursion logic generate circles that overlap even though I check for that condition, but the while loop doesn't?

```
def checkCircleCoord(coord):
global circleCoordCenter #global list
global checkCircleCoords
'''why do I work?'''
flag = False
while not flag:
flag = True
for coord2 in circleCoordCenter:
if distance(midpoint(coord),coord2) < BALL_DIAMETER():
coord = randomCircleCoord()
flag = False
break
'''why don't I work?'''
## for coord2 in circleCoordCenter:
## if distance(midpoint(coord),coord2) < BALL_DIAMETER():
## coord = randomCircleCoord()
## checkCircleCoord(coord)
''''''
return coord
```

here is my entire program:

```
'''
Daniel Chen
'''
from tkinter import *
from random import choice
from time import clock
import math
## constant variables
def NUM_CIRCLES():
return 40
def FIELD_X_SIZE():
return 800
def FIELD_Y_SIZE():
return 800
def BALL_DIAMETER():
return 75
# math functions
def square(x):
return x*x
## use as global variables
upperLeftX, upperLeftY, upperLeftX, upperLeftY = 0, 0, 0, 0
circleCoordCenter = []
def demographicsGUI():
root = Tk()
#root['bg'] = 'light yellow'
form = Frame(root)
#form['bg'] = 'light green'
fname = Label(form)
fname['text'] = 'First Name: '
fname.pack()
lname = Label(form)
lname['text'] = 'Last Name: '
lname.pack()
dob = Label(form)
dob['text'] = 'Date of Birth: '
dob.pack
action = Frame(root)
#action['bg'] = 'pink'
saveAndStart = Button(action, command=startGame,
text = 'Review Information and Start')
saveAndStart.pack()
form.pack(expand=YES, fill=BOTH)
action.pack()
'''
generates a random coordinate to be used as the upper left of circle boundary
the upper left corner will be (0,0)
subtract BALL_DIAMETER from the X and Y field size to prevent the circle being drawn out of bounds
returns only as coordinates, not as array: (x,y)
'''
def randomCircleCoord():
global upperLeftX
global upperLeftY
upperLeftX = choice(list(range(FIELD_X_SIZE() - BALL_DIAMETER() )))
upperLeftY = choice(list(range(FIELD_Y_SIZE() - BALL_DIAMETER() )))
return (upperLeftX,upperLeftY)
'''
returns the *center* of the rectangular oval boundary,
it takes a coordinate, creates another coordinate that is (x+BALL_DIAMETER, y+BALL_DIAMETER)
and finds its midpoint using:
(x2+x1)/2, (y2+y1)/2
'''
def midpoint(coord):
coord = [coord]
coordDiameter = [( coord[0][0]+BALL_DIAMETER() , coord[0][1]+BALL_DIAMETER() )]
return (((coordDiameter[0][0])+coord[0][0])/2, ((coordDiameter[0][1]+coord[0][1])/2))
'''
returns the distance between 2 coordinates using:
sqrt( (x2-x1)^2 + (y2-y1)^2 )
'''
def distance(coord1, coord2):
d = math.sqrt(square(coord2[0]-coord1[0]) + square(coord2[1]-coord1[1]))
return abs(d)
'''
compares random coord to list of accepted coordinates, circleCoordCenter
randomCircleCoord is passed into checkCircleCoord in startGame()
'''
def checkCircleCoord(coord):
global circleCoordCenter #global list
global checkCircleCoords
'''why do i work?'''
flag = False
while not flag:
flag = True
for coord2 in circleCoordCenter:
if distance(midpoint(coord),coord2) < BALL_DIAMETER():
coord = randomCircleCoord()
flag = False
break
'''why don't i work?'''
## for coord2 in circleCoordCenter:
## if distance(midpoint(coord),coord2) < BALL_DIAMETER():
## coord = randomCircleCoord()
## checkCircleCoord(coord)
''''''
return coord
def startGame():
root = Tk()
field = Canvas(root, width=FIELD_X_SIZE(), height=FIELD_Y_SIZE(), bg='white')
field.pack()
global checkCircleCoords
for circleNumber in range(NUM_CIRCLES()):
print('------------------------')
print('circlenumber', circleNumber+1)
if circleNumber == 0:
coord = randomCircleCoord()
upperLeftX, upperLeftY = coord[0],coord[1]
print('first x y coordinate:', upperLeftX, upperLeftY)
circleCoordCenter.append(midpoint(coord))
print('first x y coordinate center: ', circleCoordCenter) #test print first coord
field.create_oval(upperLeftX, upperLeftY, upperLeftX+BALL_DIAMETER(), upperLeftY + BALL_DIAMETER(), fill='white')
field.create_text(upperLeftX, upperLeftY, text = "Start", fill = "purple")
else:
'''
gets random point, x
goes into checkCircleCoord: x, which then will be checked by adding BALL_DIAMETER to both x and y coordinates, and finds the midpoint.
This midpoint is then compated to the list of midpoints in circleCoordCenter
if distance between midpoints is greater than BALL_DIAMETER, checkCircleCoord will return the coordinates
'''
upperLeftX, upperLeftY = checkCircleCoord(randomCircleCoord())
print(circleNumber+1, ' x y coordinates: ', upperLeftX, upperLeftY)
circleCoordCenter.append(midpoint((upperLeftX, upperLeftY)))
field.create_oval(upperLeftX, upperLeftY, upperLeftX+BALL_DIAMETER(), upperLeftY + BALL_DIAMETER(), fill='white')
print(circleNumber+1, ' x y center: ', midpoint((upperLeftX, upperLeftY)))
'''
labeling circles starting with 'start' finishing with 'finish'
'''
if circleNumber != NUM_CIRCLES()-1:
field.create_text(upperLeftX, upperLeftY, text = str(circleNumber), fill = "purple")
else:
field.create_text(upperLeftX, upperLeftY, text = "Finish", fill = "purple")
print("Circle Center list: ", circleCoordCenter)
##demographicsGUI()
startGame()
mainloop()
```