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https://github.com/TheAlgorithms/Python.git
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10aa214fcb
* Fix spelling in docstrings * Improve comments and formatting * Update print statement to reflect doctest change * improve phrasing and apply black * Update rat_in_maze.py This method is recursive starting from (i, j) and going in one of four directions: up, down, left, right. If a path is found to destination it returns True otherwise it returns False. Co-authored-by: Christian Clauss <cclauss@me.com>
169 lines
4.0 KiB
Python
169 lines
4.0 KiB
Python
def compare_string(string1, string2):
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"""
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>>> compare_string('0010','0110')
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'0_10'
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>>> compare_string('0110','1101')
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-1
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"""
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l1 = list(string1)
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l2 = list(string2)
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count = 0
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for i in range(len(l1)):
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if l1[i] != l2[i]:
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count += 1
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l1[i] = "_"
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if count > 1:
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return -1
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else:
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return "".join(l1)
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def check(binary):
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"""
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>>> check(['0.00.01.5'])
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['0.00.01.5']
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"""
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pi = []
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while 1:
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check1 = ["$"] * len(binary)
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temp = []
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for i in range(len(binary)):
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for j in range(i + 1, len(binary)):
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k = compare_string(binary[i], binary[j])
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if k != -1:
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check1[i] = "*"
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check1[j] = "*"
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temp.append(k)
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for i in range(len(binary)):
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if check1[i] == "$":
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pi.append(binary[i])
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if len(temp) == 0:
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return pi
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binary = list(set(temp))
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def decimal_to_binary(no_of_variable, minterms):
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"""
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>>> decimal_to_binary(3,[1.5])
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['0.00.01.5']
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"""
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temp = []
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s = ""
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for m in minterms:
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for i in range(no_of_variable):
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s = str(m % 2) + s
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m //= 2
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temp.append(s)
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s = ""
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return temp
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def is_for_table(string1, string2, count):
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"""
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>>> is_for_table('__1','011',2)
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True
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>>> is_for_table('01_','001',1)
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False
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"""
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l1 = list(string1)
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l2 = list(string2)
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count_n = 0
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for i in range(len(l1)):
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if l1[i] != l2[i]:
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count_n += 1
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if count_n == count:
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return True
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else:
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return False
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def selection(chart, prime_implicants):
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"""
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>>> selection([[1]],['0.00.01.5'])
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['0.00.01.5']
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>>> selection([[1]],['0.00.01.5'])
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['0.00.01.5']
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"""
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temp = []
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select = [0] * len(chart)
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for i in range(len(chart[0])):
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count = 0
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rem = -1
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for j in range(len(chart)):
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if chart[j][i] == 1:
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count += 1
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rem = j
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if count == 1:
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select[rem] = 1
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for i in range(len(select)):
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if select[i] == 1:
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for j in range(len(chart[0])):
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if chart[i][j] == 1:
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for k in range(len(chart)):
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chart[k][j] = 0
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temp.append(prime_implicants[i])
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while 1:
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max_n = 0
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rem = -1
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count_n = 0
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for i in range(len(chart)):
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count_n = chart[i].count(1)
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if count_n > max_n:
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max_n = count_n
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rem = i
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if max_n == 0:
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return temp
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temp.append(prime_implicants[rem])
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for i in range(len(chart[0])):
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if chart[rem][i] == 1:
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for j in range(len(chart)):
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chart[j][i] = 0
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def prime_implicant_chart(prime_implicants, binary):
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"""
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>>> prime_implicant_chart(['0.00.01.5'],['0.00.01.5'])
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[[1]]
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"""
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chart = [[0 for x in range(len(binary))] for x in range(len(prime_implicants))]
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for i in range(len(prime_implicants)):
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count = prime_implicants[i].count("_")
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for j in range(len(binary)):
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if is_for_table(prime_implicants[i], binary[j], count):
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chart[i][j] = 1
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return chart
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def main():
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no_of_variable = int(input("Enter the no. of variables\n"))
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minterms = [
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int(x)
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for x in input(
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"Enter the decimal representation of Minterms 'Spaces Separated'\n"
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).split()
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]
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binary = decimal_to_binary(no_of_variable, minterms)
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prime_implicants = check(binary)
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print("Prime Implicants are:")
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print(prime_implicants)
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chart = prime_implicant_chart(prime_implicants, binary)
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essential_prime_implicants = selection(chart, prime_implicants)
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print("Essential Prime Implicants are:")
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print(essential_prime_implicants)
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if __name__ == "__main__":
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import doctest
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doctest.testmod()
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main()
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