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I created a program in C++ that remove commas (,) from a given integer. i.e. 2,00,00 would return 20000. I am not using any new space. Here is the program I created:

void removeCommas(string& str1, int len)
    int j = 0;

    for (int i = 0; i < len; i++)
        if (str1[i] == ',')
            str1[j] = str1[i];

    str1[j] = '\0';

void main()
    string str1;
    getline(cin, str1);
    int i = str1.length();
    removeCommas(str1, i);
    cout << "the new string " << str1 << endl;

Here is the result I get:

Input : 2,000,00
String length  =8
Output = 200000 0
Length = 8

My question is that why does it show the length has 8 in output and shows the rest of string when I did put a null character. It should show output as 200000 and length has 6.

share|improve this question
Your alleged output doesn't match what your included code actually does. – i_am_jorf Apr 21 '10 at 15:58
You really haven't gotten a single useful answer to any of your other questions? – danben Apr 21 '10 at 15:59

Let the standard library do the work for you:

#include <algorithm>

str1.erase(std::remove(str1.begin(), str1.end(), ','), str1.end());

If you don't want to modify the original string, that's easy too:

std::string str2(str1.size(), '0');
str2.erase(std::remove_copy(str1.begin(), str1.end(), str2.begin(), ','), str2.end());
share|improve this answer
remove_copy should be much faster than anything that uses erase. – Ben Voigt Apr 21 '10 at 16:17
@Ben Voigt: Possibly, but I didn't have that right. I'll fix it. – Fred Larson Apr 21 '10 at 16:18
I still needed erase with remove_copy unless I used back_inserter. But I suspect erase is faster than having to grow the string multiple times. – Fred Larson Apr 21 '10 at 16:29
Depends on the number of erasures. If you are removing M elements from a list of N items, erase is O(MN), while back_inserter is O(N) with a slightly greater constant term. And calling reserve before back_inserter gets you the best of both worlds. – Ben Voigt Apr 21 '10 at 17:01
Sorry, it's remove, not erase, that ends up moving items around. But just calling resize should be faster than erase. – Ben Voigt Apr 21 '10 at 17:06

You need to do a resize instead at the end.

Contrary to popular belief an std::string CAN contain binary data including 0s. An std::string 's .size() is not related to the string containing a NULL termination.

std::string s("\0\0", 2);
assert(s.size() == 2);
share|improve this answer

The answer is probably that std::strings aren't NUL-terminated. Instead of setting the end+1'th character to '\0', you should use str.resize(new_length);.

Edit: Also consider that, if your source string has no commas in it, then your '\0' will be written one past the end of the string (which will probably just happen to work, but is incorrect).

share|improve this answer

The std::srting does not terminate with \0, you are mixing this with char* in C. So you should use resize.

share|improve this answer

The solution has already been posted by Fred L.

In a "procedural fashion" (without "algorithm") your program would look like:

void removeStuff(string& str, char character)
 size_t pos;
 while( (pos=str.find(character)) != string::npos )
      str.erase(pos, 1);

 void main()
 string str1;
 getline(cin, str1);
 removeStuff(str1, ',');
 cout<<"the new string "<<str1<<endl;




EDIT / Addendum:

In order to adress some efficiency concerns of readers, I tried to come up with the fastest solution possible. Of course, this should kick in on string sizes over about 10^5 characters with some characters to-be-removed included:

 void fastRemoveStuff(string& str, char character)
 size_t len = str.length();
 char *t, *buffer = new char[len];
 const char *p, *q;

 t = buffer, p = q =;
 while( p=(const char*)memchr(q, character, len-(p-q)) ) {
     memcpy(t, q, p-q);
     t += p-q, q = p+1;
 if( != len ) {
     size_t tail = len - (;
     memcpy(t, q, tail);
     t += tail;
 str.assign(buffer, t-buffer);
 delete [] buffer;

 void main()
 string str1 = "56,4,44,55,5,55"; // should be large, 10^6 is good
 // getline(cin, str1);
 cout<<"the old string " << str1 << endl;
 fastRemoveStuff(str1, ',');
 cout<<"the new string " << str1 << endl;
share|improve this answer
This is much less efficient than the original solution. – Ben Voigt Apr 21 '10 at 16:15
@Ben: What does it matter how efficient the original solution was? It didn't produce correct results. I can make very efficient algorithms too if I don't have to care about getting the answer right. – Bill Apr 21 '10 at 16:21
The original algorithm is easily fixed by setting the end of the string with resize instead of appending NUL, and retains its good performance. – Ben Voigt Apr 21 '10 at 17:03
Your new code is quite nice, taking advantage of memcpy and all its optimizations. I think you can get rid of the temporary buffer by using memmove, but even that has questionable benefit as memmove may not be as well tuned as memcpy. – Ben Voigt Apr 21 '10 at 20:35
@Ben, from my investigations - it appears to me that library architects have, at least in gcc variants and Visual C++, included some considerable optimization into memchr(). From the Visual C++(9) disassembly (iirc) they even aligned memory accesses to 16 byte (or so) boundaries. So the major 'trick' here seems to be the inconspicuous use of memchr() ;-) – rubber boots Apr 21 '10 at 21:38

My own procedural version:

#include <string>
#include <cassert>

using namespace std;

string Remove( const string & s, char c  ) {

    string r;
    r.reserve( s.size() );

    for ( unsigned int i = 0; i < s.size(); i++ ) {
        if ( s[i] != c ) {
            r += s[i];

    return r;

int main() {
    assert( Remove( "Foo,Bar,Zod", ',' ) == "FooBarZod" );
share|improve this answer

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