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This seems like it should be pretty trivial, but I am new at Python and want to do it the most Pythonic way.

I want to find the n'th occurrence of a substring in a string.

There's got to be something equivalent to what I WANT to do which is

mystring.find("substring", 2nd)

How can you achieve this in Python?

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5  
Find the n'th occurence of the string? I assume it means the index of the n'th occurence? –  Mark Byers Dec 10 '09 at 21:04
1  
Yes, the index of the n'th occurence –  prestomation Dec 10 '09 at 21:06
4  
What should happen if there are overlapping matches? Should find_nth('aaaa', 'aa', 2) return 1 or 2? –  Mark Byers Dec 10 '09 at 21:45

10 Answers 10

up vote 26 down vote accepted

Mark's iterative approach would be the usual way, I think.

Here's an alternative with string-splitting, which can often be useful for finding-related processes:

def findnth(haystack, needle, n):
    parts= haystack.split(needle, n+1)
    if len(parts)<=n+1:
        return -1
    return len(haystack)-len(parts[-1])-len(needle)

And here's a quick (and somewhat dirty, in that you have to choose some chaff that can't match the needle) one-liner:

'foo bar bar bar'.replace('bar', 'XXX', 1).find('bar')
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2  
+1, excellent idea! –  Alex Martelli Dec 10 '09 at 21:43
5  
The first suggestion is going to be very inefficient for large strings when the match you're interested is near the beginning. It always looks at the whole string. It's clever but I wouldn't recommend this to someone who is new to Python and just wants to learn a good way to do it. –  Mark Byers Dec 10 '09 at 22:04
1  
Thanks, I like your one liner. I don't think it's the most instantly readable thing in the world, but it's not much worse then most others below –  prestomation Dec 11 '09 at 3:58
1  
+1 for the one-liner, this should help me right now. I had been thinking of doing the equivalent of .rfind('XXX'), but that would fall apart if 'XXX' appears later in the input anyway. –  Nikhil Chelliah Jul 7 '10 at 4:17

Here's a more Pythonic version of the straightforward iterative solution:

def find_nth(haystack, needle, n):
    start = haystack.find(needle)
    while start >= 0 and n > 1:
        start = haystack.find(needle, start+len(needle))
        n -= 1
    return start

Example:

>>> find_nth("foofoofoofoo", "foofoo", 2)
6

If you want to find the nth overlapping occurrence of needle, you can increment by 1 instead of len(needle), like this:

def find_nth_overlapping(haystack, needle, n):
    start = haystack.find(needle)
    while start >= 0 and n > 1:
        start = haystack.find(needle, start+1)
        n -= 1
    return start

Example:

>>> find_nth_overlapping("foofoofoofoo", "foofoo", 2)
3

This is easier to read than Mark's version, and it doesn't require the extra memory of the splitting version or importing regular expression module. It also adheres to a few of the rules in the Zen of python, unlike the various re approaches:

  1. Simple is better than complex.
  2. Flat is better than nested.
  3. Readability counts.
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Understanding that regex is not always the best solution, I'd probably use one here:

>>> import re
>>> s = "ababdfegtduab"
>>> [m.start() for m in re.finditer(r"ab",s)]
[0, 2, 11]
>>> [m.start() for m in re.finditer(r"ab",s)][2] #index 2 is third occurrence 
11
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2  
The risk here of course is that the string to search for will contain special characters that will cause the regex to do something you didn't want. Using re.escape should solve this. –  Mark Byers Dec 10 '09 at 21:43
    
This is clever, but is it really Pythonic? Seems like overkill for just finding the nth occurrence of a substring, and it's not exactly easy to read. Also, like you say, you have to import all of re for this –  tgamblin Dec 10 '09 at 21:51
    
When you use square brackets, you tell Python to create the whole list. Round brackets would iterate only through the first elements, which is more effective: (m.start() for m in re.finditer(r"ab",s))[2] –  emu Jun 25 '12 at 14:44
    
@emu No, what you've posted won't work; you can't take an index of a generator. –  Mark Amery Jan 4 at 19:07
    
@MarkAmery sorry! I'm quite surprised why I posted that code. Still, a similar and ugly solution is possible using the itertools.islice function: next(islice(re.finditer(r"ab",s), 2, 2+1)).start() –  emu Jan 6 at 19:06
def find_nth(str1, substr1):
   return str1.find(substr1,str1.find(substr1)+1)

will find the second occurrence of the substring1 in string1

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I'd probably do something like this, using the find function that takes an index parameter:

def find_nth(s, x, n):
    i = -1
    for _ in range(n):
        i = s.find(x, i + len(x))
        if i == -1:
            break
    return i

print find_nth('bananabanana', 'an', 3)

It's not particularly Pythonic I guess, but it's simple. You could do it using recursion instead:

def find_nth(s, x, n, i = 0):
    i = s.find(x, i)
    if n == 1 or i == -1:
        return i 
    else:
        return find_nth(s, x, n - 1, i + len(x))

print find_nth('bananabanana', 'an', 3)

It's a functional way to solve it, but I don't know if that makes it more Pythonic.

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1  
for _ in xrange(n): can be used instead of while n: ... n-=1 –  J.F. Sebastian Dec 10 '09 at 21:18
    
@J.F. Sebastian: Yeah, I guess that's a little more Pythonic. I'll update. –  Mark Byers Dec 10 '09 at 21:22
    
BTW: xrange is no longer needed in Python 3: diveintopython3.org/… –  Mark Byers Dec 10 '09 at 21:24
1  
return find_nth(s, x, n - 1, i + 1) should be return find_nth(s, x, n - 1, i + len(x)). Not a big deal, but saves some computation time. –  Dan Dec 10 '09 at 21:30
    
@dlo: Actually that can give different results in some cases: find_nth('aaaa','aa',2). Mine gives 1, yours gives 2. I guess yours is actually what the poster wants. I'll update my code. Thanks for the comment. –  Mark Byers Dec 10 '09 at 21:40

Here's another re + itertools version that should work when searching for either a str or a RegexpObject. I will freely admit that this is likely over-engineered, but for some reason it entertained me.

import itertools
import re

def find_nth(haystack, needle, n = 1):
    """
    Find the starting index of the nth occurrence of ``needle`` in \
    ``haystack``.

    If ``needle`` is a ``str``, this will perform an exact substring
    match; if it is a ``RegexpObject``, this will perform a regex
    search.

    If ``needle`` doesn't appear in ``haystack``, return ``-1``. If
    ``needle`` doesn't appear in ``haystack`` ``n`` times,
    return ``-1``.

    Arguments
    ---------
    * ``needle`` the substring (or a ``RegexpObject``) to find
    * ``haystack`` is a ``str``
    * an ``int`` indicating which occurrence to find; defaults to ``1``

    >>> find_nth("foo", "o", 1)
    1
    >>> find_nth("foo", "o", 2)
    2
    >>> find_nth("foo", "o", 3)
    -1
    >>> find_nth("foo", "b")
    -1
    >>> import re
    >>> either_o = re.compile("[oO]")
    >>> find_nth("foo", either_o, 1)
    1
    >>> find_nth("FOO", either_o, 1)
    1
    """
    if (hasattr(needle, 'finditer')):
        matches = needle.finditer(haystack)
    else:
        matches = re.finditer(re.escape(needle), haystack)
    start_here = itertools.dropwhile(lambda x: x[0] < n, enumerate(matches, 1))
    try:
        return next(start_here)[1].start()
    except StopIteration:
        return -1
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I'm offering some benchmarking results comparing the most prominent approaches presented so far, namely @bobince's findnth() (based on str.split()) vs. @tgamblin's or @Mark Byers' find_nth() (based on str.find()). I will also compare with a C extension (_find_nth.so) to see how fast we can go. Here is find_nth.py:

def findnth(haystack, needle, n):
    parts= haystack.split(needle, n+1)
    if len(parts)<=n+1:
        return -1
    return len(haystack)-len(parts[-1])-len(needle)

def find_nth(s, x, n=0, overlap=False):
    l = 1 if overlap else len(x)
    i = -l
    for c in xrange(n + 1):
        i = s.find(x, i + l)
        if i < 0:
            break
    return i

Of course, performance matters most if the string is large, so suppose we want to find the 1000001st newline ('\n') in a 1.3 GB file called 'bigfile'. To save memory, we would like to work on an mmap.mmap object representation of the file:

In [1]: import _find_nth, find_nth, mmap

In [2]: f = open('bigfile', 'r')

In [3]: mm = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)

There is already the first problem with findnth(), since mmap.mmap objects don't support split(). So we actually have to copy the whole file into memory:

In [4]: %time s = mm[:]
CPU times: user 813 ms, sys: 3.25 s, total: 4.06 s
Wall time: 17.7 s

Ouch! Fortunately s still fits in the 4 GB of memory of my Macbook Air, so let's benchmark findnth():

In [5]: %timeit find_nth.findnth(s, '\n', 1000000)
1 loops, best of 3: 29.9 s per loop

Clearly a terrible performance. Let's see how the approach based on str.find() does:

In [6]: %timeit find_nth.find_nth(s, '\n', 1000000)
1 loops, best of 3: 774 ms per loop

Much better! Clearly, findnth()'s problem is that it is forced to copy the string during split(), which is already the second time we copied the 1.3 GB of data around after s = mm[:]. Here comes in the second advantage of find_nth(): We can use it on mm directly, such that zero copies of the file are required:

In [7]: %timeit find_nth.find_nth(mm, '\n', 1000000)
1 loops, best of 3: 1.21 s per loop

There appears to be a small performance penalty operating on mm vs. s, but this illustrates that find_nth() can get us an answer in 1.2 s compared to findnth's total of 47 s.

I found no cases where the str.find() based approach was significantly worse than the str.split() based approach, so at this point, I would argue that @tgamblin's or @Mark Byers' answer should be accepted instead of @bobince's.

In my testing, the version of find_nth() above was the fastest pure Python solution I could come up with (very similar to @Mark Byers' version). Let's see how much better we can do with a C extension module. Here is _find_nthmodule.c:

#include <Python.h>
#include <string.h>

off_t _find_nth(const char *buf, size_t l, char c, int n) {
    off_t i;
    for (i = 0; i < l; ++i) {
        if (buf[i] == c && n-- == 0) {
            return i;
        }
    }
    return -1;
}

off_t _find_nth2(const char *buf, size_t l, char c, int n) {
    const char *b = buf - 1;
    do {
        b = memchr(b + 1, c, l);
        if (!b) return -1;
    } while (n--);
    return b - buf;
}

/* mmap_object is private in mmapmodule.c - replicate beginning here */
typedef struct {
    PyObject_HEAD
    char *data;
    size_t size;
} mmap_object;

typedef struct {
    const char *s;
    size_t l;
    char c;
    int n;
} params;

int parse_args(PyObject *args, params *P) {
    PyObject *obj;
    const char *x;

    if (!PyArg_ParseTuple(args, "Osi", &obj, &x, &P->n)) {
        return 1;
    }
    PyTypeObject *type = Py_TYPE(obj);

    if (type == &PyString_Type) {
        P->s = PyString_AS_STRING(obj);
        P->l = PyString_GET_SIZE(obj);
    } else if (!strcmp(type->tp_name, "mmap.mmap")) {
        mmap_object *m_obj = (mmap_object*) obj;
        P->s = m_obj->data;
        P->l = m_obj->size;
    } else {
        PyErr_SetString(PyExc_TypeError, "Cannot obtain char * from argument 0");
        return 1;
    }
    P->c = x[0];
    return 0;
}

static PyObject* py_find_nth(PyObject *self, PyObject *args) {
    params P;
    if (!parse_args(args, &P)) {
        return Py_BuildValue("i", _find_nth(P.s, P.l, P.c, P.n));
    } else {
        return NULL;    
    }
}

static PyObject* py_find_nth2(PyObject *self, PyObject *args) {
    params P;
    if (!parse_args(args, &P)) {
        return Py_BuildValue("i", _find_nth2(P.s, P.l, P.c, P.n));
    } else {
        return NULL;    
    }
}

static PyMethodDef methods[] = {
    {"find_nth", py_find_nth, METH_VARARGS, ""},
    {"find_nth2", py_find_nth2, METH_VARARGS, ""},
    {0}
};

PyMODINIT_FUNC init_find_nth(void) {
    Py_InitModule("_find_nth", methods);
}

Here is the setup.py file:

from distutils.core import setup, Extension
module = Extension('_find_nth', sources=['_find_nthmodule.c'])
setup(ext_modules=[module])

Install as usual with python setup.py install. The C code plays at an advantage here since it is limited to finding single characters, but let's see how fast this is:

In [8]: %timeit _find_nth.find_nth(mm, '\n', 1000000)
1 loops, best of 3: 218 ms per loop

In [9]: %timeit _find_nth.find_nth(s, '\n', 1000000)
1 loops, best of 3: 216 ms per loop

In [10]: %timeit _find_nth.find_nth2(mm, '\n', 1000000)
1 loops, best of 3: 307 ms per loop

In [11]: %timeit _find_nth.find_nth2(s, '\n', 1000000)
1 loops, best of 3: 304 ms per loop

Clearly quite a bit faster still. Interestingly, there is no difference on the C level between the in-memory and mmapped cases. It is also interesting to see that _find_nth2(), which is based on string.h's memchr() library function, loses out against the straightforward implementation in _find_nth(): The additional "optimizations" in memchr() are apparently backfiring...

In conclusion, the implementation in findnth() (based on str.split()) is really a bad idea, since (a) it performs terribly for larger strings due to the required copying, and (b) it doesn't work on mmap.mmap objects at all. The implementation in find_nth() (based on str.find()) should be preferred in all circumstances (and therefore be the accepted answer to this question).

There is still quite a bit of room for improvement, since the C extension ran almost a factor of 4 faster than the pure Python code, indicating that there might be a case for a dedicated Python library function.

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Here is another approach using re.finditer.
The difference is that this only looks into the haystack as far as necessary

from re import finditer
from itertools import dropwhile
needle='an'
haystack='bananabanana'
n=2
next(dropwhile(lambda x: x[0]<n, enumerate(re.finditer(needle,haystack))))[1].start()
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>>> s="abcdefabcdefababcdef"
>>> j=0
>>> for n,i in enumerate(s):
...   if s[n:n+2] =="ab":
...     print n,i
...     j=j+1
...     if j==2: print "2nd occurence at index position: ",n
...
0 a
6 a
2nd occurence at index position:  6
12 a
14 a
share|improve this answer

The replace one liner is great but only works because XX and bar have the same lentgh

A good and general def would be:

def findN(s,sub,N,replaceString="XXX"):
    return s.replace(sub,replaceString,N-1).find(sub) - (len(replaceString)-len(sub))*(N-1)
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