6

I am implementing Rabin-Karp algorithm for fun. I came across this pseudocode:

    RABIN -KARP -MATCHER (T, P, d, q)
    1 n = T.length
    2 m = P.length
    3 h = d^(m-1) mod q
    4 p=0
    5 t= 0
    6 for i = 1 to m
    / preprocessing
    /
    7 p = (dp + P [i]) mod q
    8 t = (dt + T [i]) mod q
    9 for s = 0 to n-m
    / matching
    /
    10     if p == t
    11         if P [1... m] == T [s + 1...s + m]
    12             print “Pattern occurs with shift” s
    13     if s < n-m
    14         t  = (d(t-T[s + 1]h) + T [s + m + 1]) mod q

I implemented in Python 2.7 like so:

def Rabin_Karp_Matcher(text, pattern, d, q):
    n = len(text)
    m = len(pattern)
    h = pow(d,m-1)%q
    p = 0
    t =0
    result = []
    for i in range(m): # preprocessing
        p = (d*p+ord(pattern[i]))%q
        t = (d*t+ord(text[i]))%q
    for s in range(n-m):
        if p == t: # check character by character
            match = True
            for i in range(m):
                if pattern[i] != text[s+i]:
                    match = False
                    break
            if match:
                result = result + [s]
        if s < n-m:
                t = (d*(t-ord(text[s+1])*h)+ord(text[s+m]))%q #index out of bounds here
    return result

where result is a list containing the index in text of pattern.

My code is failing to find the 26 in 3141592653589793 and I suspect it has something to do with my hashcode defined by line 14 of the pseudocode. Can anyone please help with this.

I passed in the following paramters:

P = "26" T = "3141592653589793" d = 257 q = 11

P and T must be strings/arrays of chars

2 Answers 2

10

Here is a working version of your code:

def Rabin_Karp_Matcher(text, pattern, d, q):
    n = len(text)
    m = len(pattern)
    h = pow(d,m-1)%q
    p = 0
    t = 0
    result = []
    for i in range(m): # preprocessing
        p = (d*p+ord(pattern[i]))%q
        t = (d*t+ord(text[i]))%q
    for s in range(n-m+1): # note the +1
        if p == t: # check character by character
            match = True
            for i in range(m):
                if pattern[i] != text[s+i]:
                    match = False
                    break
            if match:
                result = result + [s]
        if s < n-m:
            t = (t-h*ord(text[s]))%q # remove letter s
            t = (t*d+ord(text[s+m]))%q # add letter s+m
            t = (t+q)%q # make sure that t >= 0
    return result
print (Rabin_Karp_Matcher ("3141592653589793", "26", 257, 11))
print (Rabin_Karp_Matcher ("xxxxx", "xx", 40999999, 999999937))

The output is:

[6]
[0, 1, 2, 3]

On the first step, you check whether text[0..m] == pattern. On the second step, you want to check whether text[1..m+1] == pattern. Thus you remove text[0] from the hash (at the moment it is multiplied by your precomputed h): t = (t-h*ord(text[s]))%q. And then, add text[m] to it: t = (t*d+ord(text[s+m]))%q. On the next step, you remove text[1] and add text[m+1], and so on. The t = (t+q)%q line is there because a negative number modulo q yields remainder in the range (-q; 0], and we want it to be in the range [0; q).

Note that you want to check a total of n-m+1 substrings, not n-m, hence the correct loop is for s in range(n-m+1). Checked by the second example (finding "xx" in "xxxxx").

Also worth noting:

  1. The line h = pow(d,m-1)%q may be too slow if m is large. It is better to take the result modulo q after each of the m-2 multiplications.

  2. This algorithm is still O(nm) in the worst case. With text="a"*100000 and pattern="a"*50000, it will find 50001 positions where a substring of text matches the pattern, and it will check them all character-by-character. If you expect your code to work fast in such extreme cases, you should skip the character-by-character comparison and find a way to deal with false positives (i.e., hashes are equal but strings are not). Picking a large prime number q may help reduce the probability of a false positive to an acceptable level.

2
  • This is great! Thank you. Mar 6, 2014 at 14:43
  • So, there IS an error in pseudo-code, right? With missing module in hash calculation. Because it is from the Kormen Algorithms book and it is so strange that there's an error there, I've spent some time trying to find error in my code or understanding and from what I can see - there's an error in the formula itself. Mar 24, 2017 at 19:29
0

Ok, so the answer is that you need to indent the "for s" loop:

def Rabin_Karp_Matcher(text, pattern, d, q):
    n = len(text)
    m = len(pattern)
    h = pow(d,m-1)%q
    p = 0
    t =0
    result = []
    for i in range(m): # preprocessing
        p = (d*p+ord(pattern[i]))%q
        t = (d*t+ord(text[i]))%q

        for s in range(n-m):
            if p == t: # check character by character
                match = True
                for i in range(m):
                    if pattern[i] != text[s+i]:
                        match = False
                        break
                if match:
                    result = result + [s]
            if s < n-m:
                    t = (d*(t-ord(text[s+1])*h)+ord(text[s+m]))%q #index out of bounds here


    return result

This gives me the answer 6, which is what you are looking for I imagine. Interesting algorithm man.

2
  • Thanks for the input. However I believe that is a one-off/lucky that it gave the correct output. Please see revised pseudo code with correct indentation. Also, I plugged in different values in for P and this does not yield the correct result. Also, I am expecting a list of indices not just the first occurrence. I am certain the error is in the hash code in line 14 I just cannot decipher what that part is doing. Mar 6, 2014 at 7:34
  • @SeekingAlpha Oh hey no worries, I was happy to 'help' even if I was wrong :)
    – davo36
    Mar 7, 2014 at 8:11

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.