问题
I am trying to find the longest common subsequence of 3 or more strings. The Wikipedia article has a great description of how to do this for 2 strings, but I'm a little unsure of how to extend this to 3 or more strings.
There are plenty of libraries for finding the LCS of 2 strings, so I'd like to use one of them if possible. If I have 3 strings A, B and C, is it valid to find the LCS of A and B as X, and then find the LCS of X and C, or is this the wrong way to do it?
I've implemented it in Python as follows:
import difflib
def lcs(str1, str2):
sm = difflib.SequenceMatcher()
sm.set_seqs(str1, str2)
matching_blocks = [str1[m.a:m.a+m.size] for m in sm.get_matching_blocks()]
return "".join(matching_blocks)
print reduce(lcs, ['abacbdab', 'bdcaba', 'cbacaa'])
This outputs "ba", however it should be "baa".
回答1:
Just generalize the recurrence relation.
For three strings:
dp[i, j, k] = 1 + dp[i - 1, j - 1, k - 1] if A[i] = B[j] = C[k]
max(dp[i - 1, j, k], dp[i, j - 1, k], dp[i, j, k - 1]) otherwise
Should be easy to generalize to more strings from this.
回答2:
To find the Longest Common Subsequence (LCS) of 2 strings A and B, you can traverse a 2-dimensional array diagonally like shown in the Link you posted. Every element in the array corresponds to the problem of finding the LCS of the substrings A' and B' (A cut by its row number, B cut by its column number). This problem can be solved by calculating the value of all elements in the array. You must be certain that when you calculate the value of an array element, all sub-problems required to calculate that given value has already been solved. That is why you traverse the 2-dimensional array diagonally.
This solution can be scaled to finding the longest common subsequence between N strings, but this requires a general way to iterate an array of N dimensions such that any element is reached only when all sub-problems the element requires a solution to has been solved.
Instead of iterating the N-dimensional array in a special order, you can also solve the problem recursively. With recursion it is important to save the intermediate solutions, since many branches will require the same intermediate solutions. I have written a small example in C# that does this:
string lcs(string[] strings)
{
if (strings.Length == 0)
return "";
if (strings.Length == 1)
return strings[0];
int max = -1;
int cacheSize = 1;
for (int i = 0; i < strings.Length; i++)
{
cacheSize *= strings[i].Length;
if (strings[i].Length > max)
max = strings[i].Length;
}
string[] cache = new string[cacheSize];
int[] indexes = new int[strings.Length];
for (int i = 0; i < indexes.Length; i++)
indexes[i] = strings[i].Length - 1;
return lcsBack(strings, indexes, cache);
}
string lcsBack(string[] strings, int[] indexes, string[] cache)
{
for (int i = 0; i < indexes.Length; i++ )
if (indexes[i] == -1)
return "";
bool match = true;
for (int i = 1; i < indexes.Length; i++)
{
if (strings[0][indexes[0]] != strings[i][indexes[i]])
{
match = false;
break;
}
}
if (match)
{
int[] newIndexes = new int[indexes.Length];
for (int i = 0; i < indexes.Length; i++)
newIndexes[i] = indexes[i] - 1;
string result = lcsBack(strings, newIndexes, cache) + strings[0][indexes[0]];
cache[calcCachePos(indexes, strings)] = result;
return result;
}
else
{
string[] subStrings = new string[strings.Length];
for (int i = 0; i < strings.Length; i++)
{
if (indexes[i] <= 0)
subStrings[i] = "";
else
{
int[] newIndexes = new int[indexes.Length];
for (int j = 0; j < indexes.Length; j++)
newIndexes[j] = indexes[j];
newIndexes[i]--;
int cachePos = calcCachePos(newIndexes, strings);
if (cache[cachePos] == null)
subStrings[i] = lcsBack(strings, newIndexes, cache);
else
subStrings[i] = cache[cachePos];
}
}
string longestString = "";
int longestLength = 0;
for (int i = 0; i < subStrings.Length; i++)
{
if (subStrings[i].Length > longestLength)
{
longestString = subStrings[i];
longestLength = longestString.Length;
}
}
cache[calcCachePos(indexes, strings)] = longestString;
return longestString;
}
}
int calcCachePos(int[] indexes, string[] strings)
{
int factor = 1;
int pos = 0;
for (int i = 0; i < indexes.Length; i++)
{
pos += indexes[i] * factor;
factor *= strings[i].Length;
}
return pos;
}
My code example can be optimized further. Many of the strings being cached are duplicates, and some are duplicates with just one additional character added. This uses more space than necessary when the input strings become large.
On input: "666222054263314443712", "5432127413542377777", "6664664565464057425"
The LCS returned is "54442"
回答3:
I just had to do this for a homework, so here is my dynamic programming solution in python that's pretty efficient. It is O(nml) where n, m and l are the lengths of the three sequences.
The solution works by creating a 3D array and then enumerating all three sequences to calculate the path of the longest subsequence. Then you can backtrack through the array to reconstruct the actual subsequence from its path.
So, you initialize the array to all zeros, and then enumerate the three sequences. At each step of the enumeration, you either add one to the length of the longest subsequence (if there's a match) or just carry forward the longest subsequence from the previous step of the enumeration.
Once the enumeration is complete, you can now trace back through the array to reconstruct the subsequence from the steps you took. i.e. as you travel backwards from the last entry in the array, each time you encounter a match you look it up in any of the sequences (using the coordinate from the array) and add it to the subsequence.
def lcs3(a, b, c):
m = len(a)
l = len(b)
n = len(c)
subs = [[[0 for k in range(n+1)] for j in range(l+1)] for i in range(m+1)]
for i, x in enumerate(a):
for j, y in enumerate(b):
for k, z in enumerate(c):
if x == y and y == z:
subs[i+1][j+1][k+1] = subs[i][j][k] + 1
else:
subs[i+1][j+1][k+1] = max(subs[i+1][j+1][k],
subs[i][j+1][k+1],
subs[i+1][j][k+1])
# return subs[-1][-1][-1] #if you only need the length of the lcs
lcs = ""
while m > 0 and l > 0 and n > 0:
step = subs[m][l][n]
if step == subs[m-1][l][n]:
m -= 1
elif step == subs[m][l-1][n]:
l -= 1
elif step == subs[m][l][n-1]:
n -= 1
else:
lcs += str(a[m-1])
m -= 1
l -= 1
n -= 1
return lcs[::-1]
回答4:
This below code can find the longest common subsequence in N strings. This uses itertools to generate required index combinations and then use these indexes for finding common substring.
Example Execution:
Input:
Enter the number of sequences: 3
Enter sequence 1 : 83217
Enter sequence 2 : 8213897
Enter sequence 3 : 683147
Output:
837
from itertools import product
import numpy as np
import pdb
def neighbors(index):
N = len(index)
for relative_index in product((0, -1), repeat=N):
if not all(i == 0 for i in relative_index):
yield tuple(i + i_rel for i, i_rel in zip(index, relative_index))
def longestCommonSubSequenceOfN(sqs):
numberOfSequences = len(sqs);
lengths = np.array([len(sequence) for sequence in sqs]);
incrLengths = lengths + 1;
lengths = tuple(lengths);
inverseDistances = np.zeros(incrLengths);
ranges = [tuple(range(1, length+1)) for length in lengths[::-1]];
for tupleIndex in product(*ranges):
tupleIndex = tupleIndex[::-1];
neighborIndexes = list(neighbors(tupleIndex));
operationsWithMisMatch = np.array([]);
for neighborIndex in neighborIndexes:
operationsWithMisMatch = np.append(operationsWithMisMatch, inverseDistances[neighborIndex]);
operationsWithMatch = np.copy(operationsWithMisMatch);
operationsWithMatch[-1] = operationsWithMatch[-1] + 1;
chars = [sqs[i][neighborIndexes[-1][i]] for i in range(numberOfSequences)];
if(all(elem == chars[0] for elem in chars)):
inverseDistances[tupleIndex] = max(operationsWithMatch);
else:
inverseDistances[tupleIndex] = max(operationsWithMisMatch);
# pdb.set_trace();
subString = "";
mainTupleIndex = lengths;
while(all(ind > 0 for ind in mainTupleIndex)):
neighborsIndexes = list(neighbors(mainTupleIndex));
anyOperation = False;
for tupleIndex in neighborsIndexes:
current = inverseDistances[mainTupleIndex];
if(current == inverseDistances[tupleIndex]):
mainTupleIndex = tupleIndex;
anyOperation = True;
break;
if(not anyOperation):
subString += str(sqs[0][mainTupleIndex[0] - 1]);
mainTupleIndex = neighborsIndexes[-1];
return subString[::-1];
numberOfSequences = int(input("Enter the number of sequences: "));
sequences = [input("Enter sequence {} : ".format(i)) for i in range(1, numberOfSequences + 1)];
print(longestCommonSubSequenceOfN(sequences));
来源:https://stackoverflow.com/questions/5057243/longest-common-subsequence-of-3-strings