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Add Edit Distance DP Algorithm #38

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Oct 12, 2016
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Add Edit Distance DP Algorithm #38

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74 changes: 74 additions & 0 deletions dynamic_programming/edit_distance.py
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"""
Author : Turfa Auliarachman
Date : October 12, 2016

This is a pure Python implementation of Dynamic Programming solution to the edit distance problem.

The problem is :
Given two strings A and B. Find the minimum number of operations to string B such that A = B. The permitted operations are removal, insertion, and substitution.
"""

class EditDistance:
"""
Use :
solver = EditDistance()
editDistanceResult = solver.solve(firstString, secondString)
"""

def __init__(self):
self.__prepare__()

def __prepare__(self, N = 0, M = 0):
self.dp = [[-1 for y in range(0,M)] for x in range(0,N)]

def __solveDP(self, x, y):
if (x==-1):
return y+1
elif (y==-1):
return x+1
elif (self.dp[x][y]>-1):
return self.dp[x][y]
else:
if (self.A[x]==self.B[y]):
self.dp[x][y] = self.__solveDP(x-1,y-1)
else:
self.dp[x][y] = 1+min(self.__solveDP(x,y-1), self.__solveDP(x-1,y), self.__solveDP(x-1,y-1))

return self.dp[x][y]

def solve(self, A, B):
if isinstance(A,bytes):
A = A.decode('ascii')

if isinstance(B,bytes):
B = B.decode('ascii')

self.A = str(A)
self.B = str(B)

self.__prepare__(len(A), len(B))

return self.__solveDP(len(A)-1, len(B)-1)

if __name__ == '__main__':
import sys
if sys.version_info.major < 3:
input_function = raw_input
else:
input_function = input

solver = EditDistance()

print("****************** Testing Edit Distance DP Algorithm ******************")
print()

print("Enter the first string: ", end="")
S1 = input_function()

print("Enter the second string: ", end="")
S2 = input_function()

print()
print("The minimum Edit Distance is: %d" % (solver.solve(S1, S2)))
print()
print("*************** End of Testing Edit Distance DP Algorithm ***************")