-
Notifications
You must be signed in to change notification settings - Fork 0
/
util.py
167 lines (148 loc) · 6.54 KB
/
util.py
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
from tkinter import *
""" Given unformatted data, return a 2D list. """
def turnTo2Dlist(data, rows, cols):
result = [ ([0] * cols) for row in range(rows) ]
for row in range(rows):
for col in range(cols):
result[row][col] = data[(8*col)+row+col]
return result
""" Given a 2D array, return a list of lists. Each list has the locations of
matching colors of the first value in the list. (TODO: Fix this comment) """
def findMatchingNum(data, rows, cols, num):
for row in range(rows):
for col in range(cols):
(result, flag) = checkRowCol(row, col, num, data)
if len(result) == num:
return (result, flag)
return (None, flag)
def findPackage(data, rows, cols):
for row in range(rows):
for col in range(cols):
result = checkPackage(data, row, col)
if (result!= None):
return (result, row, col)
return (None, None, None)
""" Given an initial row, column, returns an array of cell locations that match
whether the color matches the initial location num times, horizontally, or
vertically (whichever comes first). """
def checkRowCol(startRow, startCol, num, data):
flag = None
color = data[startRow][startCol]
rows = len(data)
cols = len(data[0])
directions = [(0, 1), (1, 0)]
for dirs in range(len(directions)):
result = list()
(drow, dcol) = directions[dirs]
for i in range(num):
checkRow = startRow + i*drow
checkCol = startCol + i*dcol
if ((checkRow < 0) or (checkRow >= rows) or (checkCol < 0) or (checkCol >= cols)):
break
if("V" in data[checkRow][checkCol].color or "H" in data[checkRow][checkCol].color):
flag = data[checkRow][checkCol].color[-1:]
data[checkRow][checkCol].color = data[checkRow][checkCol].color[:-1]
# Check for out of bounds
if ((data[checkRow][checkCol] != color)):
break
else:
result.append((checkRow, checkCol))
if(len(result) == num):
#flag = findFlag(result, data)
return (result, flag)
return (result, flag)
def findFlag(result, data):
flag = None
counter += 1
for (row, col) in result:
if("V" in data[row][col].color or "H" in data[row][col].color):
flag = data[row][col].color[-1:]
data[row][col].color = data[row][col].color[:-1]
return flag
def checkPackage(data, startRow, startCol):
num = data[startRow][startCol]
rows = len(data)
cols = len(data[0])
dirs = [((-1, 0), (0, -1)), ((-1, 0), (0, 1)), ((1, 0), (0, -1)), ((1, 0), (0, 1))]
for dir in range(len(dirs)):
result = set()
for direction in dirs[dir]:
(drow, dcol) = direction
for i in range(3):
checkRow = startRow + i*drow
checkCol = startCol + i*dcol
if(checkRow< 0 or checkRow>=rows or checkCol< 0
or checkCol>=cols):
break
if(data[checkRow][checkCol] != num):
break
else:
result.add((checkRow, checkCol))
if(len(result) == 5):
return result
return None
def findImage(color, letter):
blueH = PhotoImage(file = "blueH.gif").subsample(2,2)
greenH = PhotoImage(file = "greenH.gif").subsample(2,2)
redH = PhotoImage(file = "redH.gif").subsample(2,2)
yellowH = PhotoImage(file = "yellowH.gif").subsample(2,2)
purpleH = PhotoImage(file = "purpleH.gif").subsample(2,2)
orangeH = PhotoImage(file = "orangeH.gif").subsample(2,2)
blueV = PhotoImage(file = "blueV.gif").subsample(2,2)
greenV = PhotoImage(file = "greenV.gif").subsample(2,2)
redV = PhotoImage(file = "redV.gif").subsample(2,2)
yellowV = PhotoImage(file = "yellowV.gif").subsample(2,2)
purpleV = PhotoImage(file = "purpleV.gif").subsample(2,2)
orangeV = PhotoImage(file = "orangeV.gif").subsample(2,2)
if(color == "blue" and letter == "H"): return blueH
elif(color == "blue" and letter == "V"): return blueV
if(color == "green" and letter == "H"): return greenH
elif(color == "green" and letter == "V"): return greenV
if(color == "red" and letter == "H"): return redH
elif(color == "red" and letter == "V"): return redV
if(color == "yellow" and letter == "H"): return yellowH
elif(color == "yellow" and letter == "V"): return yellowV
if(color == "purple" and letter == "H"): return purpleH
elif(color == "purple" and letter == "V"): return purpleV
if(color == "orange" and letter == "H"): return orangeH
elif(color == "orange" and letter == "V"): return orangeV
def findOrientation(list1):
checkRow = None
for (row, col) in list1:
if(checkRow == None):
checkRow = row
elif(row != checkRow):
return "V"
return "H"
#taken from notes
def rgbString(red, green, blue):
return "#%02x%02x%02x" % (red, green, blue)
def drawBackground(canvas, data):
data.back = PhotoImage(file = "level1.gif").subsample(2, 2)
canvas.create_image(150, 250, image = data.back)
canvas.create_rectangle(115, 448, 150, 460, fill = "pink", outline = "pink")
canvas.create_text(132, 454, text = "%d" % data.moves)
canvas.create_rectangle(210, 447, 245, 463, fill = "pink", outline = "pink")
canvas.create_text(227, 455, text = "%d" % data.score)
canvas.create_rectangle(220, 10, 255, 23, fill = "pink", outline = "pink")
canvas.create_text(237, 16, text = "%d" % data.target,
font = "Times 16 italic")
background = rgbString(125, 155, 216)
lineColor = rgbString(162, 181, 220)
canvas.create_rectangle(0,50, 300, 350, fill=background)
for x in range(36, 270, 32):
canvas.create_line(x, 50, x, 340, fill=lineColor, width = 2)
for y in range(53, 358, 32):
canvas.create_line(0, y, 300, y, fill= lineColor, width =2)
data.hand = PhotoImage(file = "Booster_free_switch.gif").subsample(4,4)
canvas.create_image (28, 15, image = data.hand)
def findPosCandy(x, y, data):
(rows, cols) = (data.rows, data.cols)
for row in range(data.rows):
for col in range(data.cols):
candy = data.candies[row][col]
(x0, y0, x1, y1) = (candy.x-candy.r, candy.y-candy.r,
candy.x+candy.r, candy.y+candy.r)
if(x>x0 and y>y0 and x<x1 and y<y1):
return (candy.x, candy.y, row, col, candy)
return None