Python/dynamic_programming/edit_distance.py

"""
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)


def min_distance_bottom_up(word1: str, word2: str) -> int:
    """
    >>> min_distance_bottom_up("intention", "execution")
    5
    >>> min_distance_bottom_up("intention", "")
    9
    >>> min_distance_bottom_up("", "")
    0
    """
    m = len(word1)
    n = len(word2)
    dp = [[0 for _ in range(n + 1)] for _ in range(m + 1)]
    for i in range(m + 1):
        for j in range(n + 1):

            if i == 0:  # first string is empty
                dp[i][j] = j
            elif j == 0:  # second string is empty
                dp[i][j] = i
            elif (
                word1[i - 1] == word2[j - 1]
            ):  # last character of both substing is equal
                dp[i][j] = dp[i - 1][j - 1]
            else:
                insert = dp[i][j - 1]
                delete = dp[i - 1][j]
                replace = dp[i - 1][j - 1]
                dp[i][j] = 1 + min(insert, delete, replace)
    return dp[m][n]


if __name__ == "__main__":
    solver = EditDistance()

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

    S1 = input("Enter the first string: ").strip()
    S2 = input("Enter the second string: ").strip()

    print()
    print("The minimum Edit Distance is: %d" % (solver.solve(S1, S2)))
    print("The minimum Edit Distance is: %d" % (min_distance_bottom_up(S1, S2)))
    print()
    print("*************** End of Testing Edit Distance DP Algorithm ***************")
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00			`"""`
			`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.`
			`"""`
Modernize Python 2 code to get ready for Python 3 2017-11-25 11:41:55 +00:00
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00
			`class EditDistance:`
			`"""`
			`Use :`
			`solver = EditDistance()`
			`editDistanceResult = solver.solve(firstString, secondString)`
			`"""`

			`def __init__(self):`
			`self.__prepare__()`

psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`def __prepare__(self, N=0, M=0):`
			`self.dp = [[-1 for y in range(0, M)] for x in range(0, N)]`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00
			`def __solveDP(self, x, y):`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if x == -1:`
			`return y + 1`
			`elif y == -1:`
			`return x + 1`
			`elif self.dp[x][y] > -1:`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00			`return self.dp[x][y]`
			`else:`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if self.A[x] == self.B[y]:`
			`self.dp[x][y] = self.__solveDP(x - 1, y - 1)`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00			`else:`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`self.dp[x][y] = 1 + min(`
			`self.__solveDP(x, y - 1),`
			`self.__solveDP(x - 1, y),`
			`self.__solveDP(x - 1, y - 1),`
			`)`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00
			`return self.dp[x][y]`

			`def solve(self, A, B):`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if isinstance(A, bytes):`
			`A = A.decode("ascii")`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if isinstance(B, bytes):`
			`B = B.decode("ascii")`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00
			`self.A = str(A)`
			`self.B = str(B)`

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

psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`return self.__solveDP(len(A) - 1, len(B) - 1)`
Add Edit Distance DP Algorithm 2016-10-12 14:48:37 +00:00
Update edit_distance.py (#1001) added bottom up method. 2019-07-13 07:10:02 +00:00
			`def min_distance_bottom_up(word1: str, word2: str) -> int:`
			`"""`
			`>>> min_distance_bottom_up("intention", "execution")`
			`5`
			`>>> min_distance_bottom_up("intention", "")`
			`9`
			`>>> min_distance_bottom_up("", "")`
			`0`
			`"""`
			`m = len(word1)`
			`n = len(word2)`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`dp = [[0 for _ in range(n + 1)] for _ in range(m + 1)]`
			`for i in range(m + 1):`
			`for j in range(n + 1):`
Simplify code by dropping support for legacy Python (#1143) * Simplify code by dropping support for legacy Python * sort() --> sorted() 2019-08-19 13:37:49 +00:00
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if i == 0: # first string is empty`
Update edit_distance.py (#1001) added bottom up method. 2019-07-13 07:10:02 +00:00			`dp[i][j] = j`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`elif j == 0: # second string is empty`
Simplify code by dropping support for legacy Python (#1143) * Simplify code by dropping support for legacy Python * sort() --> sorted() 2019-08-19 13:37:49 +00:00			`dp[i][j] = i`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`elif (`
			`word1[i - 1] == word2[j - 1]`
			`): # last character of both substing is equal`
			`dp[i][j] = dp[i - 1][j - 1]`
Simplify code by dropping support for legacy Python (#1143) * Simplify code by dropping support for legacy Python * sort() --> sorted() 2019-08-19 13:37:49 +00:00			`else:`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`insert = dp[i][j - 1]`
			`delete = dp[i - 1][j]`
			`replace = dp[i - 1][j - 1]`
Update edit_distance.py (#1001) added bottom up method. 2019-07-13 07:10:02 +00:00			`dp[i][j] = 1 + min(insert, delete, replace)`
			`return dp[m][n]`


psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if __name__ == "__main__":`
			`solver = EditDistance()`
Update edit_distance.py (#1001) added bottom up method. 2019-07-13 07:10:02 +00:00
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`print("**************** Testing Edit Distance DP Algorithm ****************")`
			`print()`
Update edit_distance.py (#1001) added bottom up method. 2019-07-13 07:10:02 +00:00
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`S1 = input("Enter the first string: ").strip()`
			`S2 = input("Enter the second string: ").strip()`
Simplify code by dropping support for legacy Python (#1143) * Simplify code by dropping support for legacy Python * sort() --> sorted() 2019-08-19 13:37:49 +00:00
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`print()`
			`print("The minimum Edit Distance is: %d" % (solver.solve(S1, S2)))`
			`print("The minimum Edit Distance is: %d" % (min_distance_bottom_up(S1, S2)))`
			`print()`
			`print("************* End of Testing Edit Distance DP Algorithm *************")`