DSA TrainerEdit Distance
Given two strings word1 and word2, return the minimum number of operations (insert, delete, replace) needed to convert word1 into word2. Each operation costs 1.
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Problem
Given two strings word1 and word2, return the minimum number of operations required to convert word1 to word2. You have three operations: insert a character, delete a character, or replace a character.
Input
Two strings `word1` and `word2`.
Output
The minimum edit distance (number of operations) to transform `word1` into `word2`.
Examples
Input: word1 = "horse", word2 = "ros"
Output: 3
horse → rorse (replace h→r) → rose (delete r) → ros (delete e).
Input: word1 = "intention", word2 = "execution"
Output: 5
The brute-force approach
Recursion: at each step, if characters match, recurse on the remaining strings. Otherwise try all three operations and take the minimum.
def min_dist(i, j): # cost to convert word1[i:] to word2[j:]
if i == len(word1): return len(word2) - j
if j == len(word2): return len(word1) - i
if word1[i] == word2[j]:
return min_dist(i+1, j+1)
return 1 + min(
min_dist(i+1, j), # delete from word1
min_dist(i, j+1), # insert into word1
min_dist(i+1, j+1), # replace
)O(3^(m+n)) — exponential without memoization.
Spotting the pattern
This is a Dynamic Programming problem. The key question to ask yourself:
The three operations (replace, delete, insert) correspond to three cells in the DP table. Which cell maps to which operation?
Answering that is where it clicks, and it's exactly what the guided walkthrough below builds with you: the pattern reasoning, a progressive hint ladder that never spoils the answer, a row-by-row dry run, the optimized solution, and an in-browser editor to run your code against real test cases.
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