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plot.py
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plot.py
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import matplotlib.pyplot as plt
GRAPH = {
0: [1, 2],
1: [0, 3, 6],
2: [0, 5],
3: [1, 4, 8],
4: [3, 5, 9],
5: [2, 4, 10],
6: [1, 7, 11],
7: [6, 8, 12],
8: [3, 7, 9],
9: [4, 8, 10, 13],
10: [5, 9, 14],
11: [6, 12, 15],
12: [7, 11, 13, 16],
13: [9, 12, 14, 17],
14: [10, 13, 18],
15: [11, 16, 19],
16: [12, 15, 17, 20],
17: [13, 16, 18, 21],
18: [14, 17, 22],
19: [15],
20: [16],
21: [17],
22: [18]
}
label_to_cartisian = {
0: (0, 5000),
1: (1000, 5000),
2: (0, 0),
3: (1000, 2500),
4: (1000, 1000),
5: (1000, 0),
6: (2000, 5000),
7: (2000, 4000),
8: (2000, 2500),
9: (2000, 1000),
10: (2000, 0),
11: (3000, 5000),
12: (3000, 4000),
13: (3000, 1000),
14: (3000, 0),
15: (4000, 5000),
16: (4000, 4000),
17: (4000, 1000),
18: (4000, 0),
19: (5000, 5000),
20: (5000, 4000),
21: (5000, 1000),
22: (5000, 0)
}
ROUTE = {
(0, 1): 1, (1, 0): 1,
(0, 2): 5, (2, 0): 5,
(1, 3): 2.5, (3, 1): 2.5,
(1, 6): 1, (6, 1): 1,
(3, 4): 1.5, (4, 3): 1.5,
(4, 5): 1, (5, 4): 1,
(5, 2): 1, (2, 5): 1,
(3, 8): 1, (8, 3): 1,
(4, 9): 1, (9, 4): 1,
(5, 10): 1, (10, 5): 1,
(6, 7): 1, (7, 6): 1,
(7, 8): 1.5, (8, 7): 1.5,
(8, 9): 1.5, (9, 8): 1.5,
(9, 10): 1, (10, 9): 1,
(6, 11): 1, (11, 6): 1,
(7, 12): 1, (12, 7): 1,
(9, 13): 1, (13, 9): 1,
(10, 14): 1, (14, 10): 1,
(11, 12): 1, (12, 11): 1,
(12, 13): 3, (13, 12): 3,
(13, 14): 1, (14, 13): 1,
(11, 15): 1, (15, 11): 1,
(12, 16): 1, (16, 12): 1,
(13, 17): 1, (17, 13): 1,
(14, 18): 1, (18, 14): 1,
(15, 16): 1, (16, 15): 1,
(16, 17): 3, (17, 16): 3,
(17, 18): 1, (18, 17): 1,
(15, 19): 1, (19, 15): 1,
(16, 20): 1, (20, 16): 1,
(17, 21): 1, (21, 17): 1,
(18, 22): 1, (22, 18): 1
}
CONCENTRATION = {
(0, 1): 1497.9, (1, 0): 1497.9,
(0, 2): 794.9, (2, 0): 794.9,
(1, 3): 3544.8, (3, 1): 3544.8,
(1, 6): 2041.6, (6, 1): 2041.6,
(3, 4): 2782.2, (4, 3): 2782.2,
(4, 5): 115.3, (5, 4): 115.3,
(5, 2): 0, (2, 5): 0,
(3, 8): 1022.2, (8, 3): 1022.2,
(4, 9): 695.2, (9, 4): 695.2,
(5, 10): 0, (10, 5): 0,
(6, 7): 475.6, (7, 6): 475.6,
(7, 8): 1255, (8, 7): 1255,
(8, 9): 3275.4, (9, 8): 3275.4,
(9, 10): 21.8, (10, 9): 21.8,
(6, 11): 903.8, (11, 6): 903.8,
(7, 12): 1140.9, (12, 7): 1140.9,
(9, 13): 806.8, (13, 9): 806.8,
(10, 14): 0, (14, 10): 0,
(11, 12): 3233.8, (12, 11): 3233.8,
(12, 13): 1558.1, (13, 12): 1558.1,
(13, 14): 1.4, (14, 13): 1.4,
(11, 15): 1387.5, (15, 11): 1387.5,
(12, 16): 1273, (16, 12): 1273,
(13, 17): 678.9, (17, 13): 678.9,
(14, 18): 0, (18, 14): 0,
(15, 16): 1622.2, (16, 15): 1622.2,
(16, 17): 5693, (17, 16): 5693,
(17, 18): 534.7, (18, 17): 534.7,
(15, 19): 1866.6, (19, 15): 1866.6,
(16, 20): 1019.4, (20, 16): 1019.4,
(17, 21): 715.8, (21, 17): 715.8,
(18, 22): 0, (22, 18): 0
}
class PlotGenerator:
def __init__(self, fig):
# self.plot = plt.figure(1)
self.plot = self.plot_graph(fig)
def plot_graph(self, fig):
plt.figure(fig)
for node in GRAPH:
for neighbor in GRAPH[node]:
node_pos = label_to_cartisian[node]
neighbor_pos = label_to_cartisian[neighbor]
plt.plot([node_pos[0], neighbor_pos[0]], [node_pos[1], neighbor_pos[1]], color='blue',
marker='o', markerfacecolor='blue', markersize=5)
plt.annotate(str(CONCENTRATION[(node, neighbor)]), # this is the text
((node_pos[0]+neighbor_pos[0])/2, (node_pos[1]+neighbor_pos[1])/2),
textcoords="offset points", # how to position the text
xytext=(2,2), # distance from text to points (x,y)
ha='center')
for node, pos in label_to_cartisian.items():
plt.annotate(str(node), # this is the text
(pos[0],pos[1]),
textcoords="offset points", # how to position the text
xytext=(5,5), # distance from text to points (x,y)
ha='center',
color='blue')
return plt
def plot_path(self, path):
for i in range(1, len(path)):
n1, n2 = label_to_cartisian[path[i-1]], label_to_cartisian[path[i]]
self.plot.plot([n1[0], n2[0]], [n1[1], n2[1]], color='red', linewidth=3,
marker='o', markerfacecolor='red', markersize=8)
# plot1 = PlotGenerator(2)
# plot1.plot.xlabel('x - axis, (m)')
# plot1.plot.ylabel('y - axis, (m)')
# plot1.plot.title('Concentration along each route')
# plot1.plot.show()