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grid_state = [['empty' for row in range(6)] for column in range(6)]
print(grid_state)
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# Creates a list containing 5 lists, each of 8 items, all set to 0
w, h = 8, 5
Matrix = [[0 for x in range(w)] for y in range(h)]
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# Creates a list containing 5 lists, each of 8 items, all set to 0
w, h = 8, 5;
Matrix = [[0 for y in range(h)] for x in range(w)]
Matrix[0][0] = 1
Matrix[0][6] = 3 # error! range...
Matrix[6][0] = 3 # valid
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def build_matrix(rows, cols):
matrix = []
for r in range(0, rows):
matrix.append([0 for c in range(0, cols)])
return matrix
if __name__ == '__main__':
build_matrix(6, 10)
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from array import *
T = [[11, 12, 5, 2], [15, 6,10], [10, 8, 12, 5], [12,15,8,6]]
for r in T:
for c in r:
print(c,end = " ")
print()
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import numpy as np
#create array of arrays
all_arrays = np.array([[10, 20, 30, 40, 50],
[60, 70, 80, 90, 100],
[110, 120, 130, 140, 150]])
#view array of arrays
print(all_arrays)
[[ 10 20 30 40 50]
[ 60 70 80 90 100]
[110 120 130 140 150]]
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# 2D arrays in python can be used to create rudimentary games
array_2d = [['row0, column0'], ['row0, column1'], ['row0, column2'],
['row1, column0'], ['row1, column1'], ['row1, column2'],
['row2, column0'], ['row2, column1'], ['row2, column2']]
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array = [[11, 12, 5, 2], [15, 6,10], [10, 8, 12, 5], [12,15,8,6]]
print(array[0])
print(array[1][2])