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I'm sorting strings that are comprised of text and numbers. I want the sort to sort the number parts as numbers, not alphanumeric.

For example I want: abc1def, ..., abc9def, abc10def

instead of: abc10def, abc1def, ..., abc9def

Does anyone know an algorithm for this (in particular in c++)


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Look in the "related" sidebar.... – dmckee Mar 13 '09 at 16:13
@dmckee - to be fair he didn't use the term (as I didn't when I asked the same question) "Natural Sorting" - that was edited in later. – Paul Tomblin Mar 13 '09 at 18:35

5 Answers 5

up vote 8 down vote accepted

I asked this exact question (although in Java) and got pointed to which has an algorithm and implementations of it in many languages.

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+1 Thanks Paul - I looked for natural sort and the C++ tag, but didn't find anything. – Dominic Rodger Mar 13 '09 at 11:40
Whoa, that’s utterly repulsive code. :-( – Konrad Rudolph Jan 10 '13 at 11:35
It's not pretty, but it worked for me. – Paul Tomblin Jan 10 '13 at 16:14

This is known as natural sorting. There's an algorithm here that looks promising.

Be careful of problems with non-ASCII characters (see Jeff's blog entry on the subject).

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Thats sweet but I don't have acces to boost :-| – Will Mar 13 '09 at 11:35
Then it looks like Paul Tomblin's answer may be more helpful to you - the C++ variant doesn't seem to use anything funky. – Dominic Rodger Mar 13 '09 at 11:39

Several natural sort implementations for C++ are available. A brief review:

  • natural_sort<> - based on Boost.Regex.
    • In my tests, it's roughly 20 times slower than other options.
  • Dirk Jagdmann's alnum.hpp, based on Dave Koelle's alphanum algorithm
    • Potential integer overlow issues for values over MAXINT
  • Martin Pool's natsort - written in C, but trivially usable from C++.
    • The only C/C++ implementation I've seen to offer a case insensitive version, which would seem to be a high priority for a "natural" sort.
    • Like the other implementations, it doesn't actually parse decimal points, but it does special case leading zeroes (anything with a leading 0 is assumed to be a fraction), which is a little weird but potentially useful.
    • PHP uses this algorithm.
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Partially reposting my another answer:

bool compareNat(const std::string& a, const std::string& b){
    if (a.empty())
        return true;
    if (b.empty())
        return false;
    if (std::isdigit(a[0]) && !std::isdigit(b[0]))
        return true;
    if (!std::isdigit(a[0]) && std::isdigit(b[0]))
        return false;
    if (!std::isdigit(a[0]) && !std::isdigit(b[0]))
        if (a[0] == b[0])
            return compareNat(a.substr(1), b.substr(1));
        return (toUpper(a) < toUpper(b));
        //toUpper() is a function to convert a std::string to uppercase.

    // Both strings begin with digit --> parse both numbers
    std::istringstream issa(a);
    std::istringstream issb(b);
    int ia, ib;
    issa >> ia;
    issb >> ib;
    if (ia != ib)
        return ia < ib;

    // Numbers are the same --> remove numbers and recurse
    std::string anew, bnew;
    std::getline(issa, anew);
    std::getline(issb, bnew);
    return (compareNat(anew, bnew));

toUpper() function:

std::string toUpper(std::string s){
    for(int i=0;i<(int)s.length();i++){s[i]=toupper(s[i]);}
    return s;


std::vector<std::string> str;
std::sort(str.begin(), str.end(), compareNat);
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This is not very efficient, a more efficient and comprehensive solution is this one – Jahid Nov 23 at 21:01
// -1: s0 < s1; 0: s0 == s1; 1: s0 > s1
static int numericCompare(const string &s0, const string &s1) {
    size_t i = 0, j = 0;
    for (; i < s0.size() && j < s1.size();) {
        string t0(1, s0[i++]);
        while (i < s0.size() && !(isdigit(t0[0]) ^ isdigit(s0[i]))) {
        string t1(1, s1[j++]);
        while (j < s1.size() && !(isdigit(t1[0]) ^ isdigit(s1[j]))) {
        if (isdigit(t0[0]) && isdigit(t1[0])) {
            size_t p0 = t0.find_first_not_of('0');
            size_t p1 = t1.find_first_not_of('0');
            t0 = p0 == string::npos ? "" : t0.substr(p0);
            t1 = p1 == string::npos ? "" : t1.substr(p1);
            if (t0.size() != t1.size()) {
                return t0.size() < t1.size() ? -1 : 1;
        if (t0 != t1) {
            return t0 < t1 ? -1 : 1;
    return i == s0.size() && j == s1.size() ? 0 : i != s0.size() ? 1 : -1;

I am not very sure if it is you want, anyway, you can have a try:-)

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This returns 0 for numericCompare("z01", "z1"), which doesn't seem desirable. – Josh Kelley Nov 5 '14 at 19:21
This algorithm uses extra memory: temporary strings. At least, you could use ranges (pairs of iterators) instead. – Nickolay Merkin Mar 18 at 12:05

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