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Here is the problem: Remove specified characters from a given string.

Input: The string is "Hello World!" and characters to be deleted are "lor"
Output: "He Wd!"

Solving this involves two sub-parts:

  1. Determining if the given character is to be deleted
  2. If so, then deleting the character

To solve the first part, I am reading the characters to be deleted into a std::unordered_map, i.e. I parse the string "lor" and insert each character into the hashmap. Later, when I am parsing the main string, I will look into this hashmap with each character as the key and if the returned value is non-zero, then I delete the character from the string.

Question 1: Is this the best approach?

Question 2: Which would be better for this problem? std::map or std::unordered_map? Since I am not interested in ordering, I used an unordered_map. But is there a higher overhead for creating the hash table? What to do in such situations? Use a map (balanced tree) or a unordered_map (hash table)?

Now coming to the next part, i.e. deleting the characters from the string. One approach is to delete the character and shift the data from that point on, back by one position. In the worst case, where we have to delete all the characters, this would take O(n^2).

The second approach would be to copy only the required characters to another buffer. This would involve allocating enough memory to hold the original string and copy over character by character leaving out the ones that are to be deleted. Although this requires additional memory, this would be a O(n) operation.

The third approach, would be to start reading and writing from the 0th position, increment the source pointer when every time I read and increment the destination pointer only when I write. Since source pointer will always be same or ahead of destination pointer, I can write over the same buffer. This saves memory and is also an O(n) operation. I am doing the same and calling resize in the end to remove the additional unnecessary characters?

Here is the function I have written:

// str contains the string (Hello World!)
// chars contains the characters to be deleted (lor)
void remove_chars(string& str, const string& chars)
    unordered_map<char, int> chars_map;

    for(string::size_type i = 0; i < chars.size(); ++i)
        chars_map[chars[i]] = 1;

    string::size_type i = 0; // source
    string::size_type j = 0; // destination
    while(i < str.size())
        if(chars_map[str[i]] != 0)
            str[j] = str[i];


Question 3: What are the different ways by which I can improve this function. Or is this best we can do?


share|improve this question
Please ask only one question per question. – AlexSavAlexandrov Jan 12 '12 at 22:13
¤ Q1 and Q2: note that CHAR_BIT = 8 on most implementations, and is in practice at worst 16 bits. So for efficiency and with a single char per character, just use an array for the lookup. You might consider a std::bitset or std::vector<bool>. Q3: For usability make a function-like wrapper. For coding clarity forget about fretting about string::size_type. Just use int, or ptrdiff_t. Cheers, – Cheers and hth. - Alf Jan 12 '12 at 22:16
This q. might possibly better be asked at the code review site. – Cheers and hth. - Alf Jan 12 '12 at 22:17
As fas as I can see, the only value you ever map to is 1. Therefore why use an unordered_map, not an unordered_set? – celtschk Jan 12 '12 at 22:18

4 Answers 4

up vote 2 down vote accepted

Assuming that you're studying algorithms, and not interested in library solutions:

Hash tables are most valuable when the number of possible keys is large, but you only need to store a few of them. Your hash table would make sense if you were deleting specific 32-bit integers from digit sequences. But with ASCII characters, it's overkill.

Just make an array of 256 bools and set a flag for the characters you want to delete. It only uses one table lookup instruction per input character. Hash map involves at least a few more instructions to compute the hash function. Space-wise, they are probably no more compact once you add up all the auxiliary data.

void remove_chars(string& str, const string& chars)
    // set up the look-up table
    std::vector<bool> discard(256, false);
    for (int i = 0; i < chars.size(); ++i)
        discard[chars[i]] = true;

    for (int j = 0; j < str.size(); ++j)
        if (discard[str[j]])
            // do something, depending on your storage choice

Regarding your storage choices: Choose between options 2 and 3 depending on whether you need to preserve the input data or not. 3 is obviously most efficient, but you don't always want an in-place procedure.

share|improve this answer
I would use bitset<256>, but still a great answer. Slightly more efficient than strspn and strcspn as you initialize the table only once. – MSN Jan 12 '12 at 23:03
bitset is optimized for space. It packs the bits into a smaller space at the expense of extra bit-mask operations to store and retrieve bits. It would be useful for a large bitset but definitely slower than vector<bool>. (Not being confrontational, just explaining my choice) – japreiss Jan 12 '12 at 23:09
I believe vector<bool> is still specialized to be equivalent to bitset underneath. array<bool, 256> would be the best of both worlds: no dynamic allocations and unpacked size. – MSN Jan 12 '12 at 23:23
@japreiss Thanks for the answer. From what I understand, char is not required to be unsigned. It can also have values between -128 to +127, depending on the platform. If that is the case, wouldn't discard[chars[i]] cause a memory fault? – Vinay Jan 13 '12 at 0:00
@Vinay True, I hadn't thought of that. Since the actual numeric values don't matter, you could always reinterpret_cast<unsigned char>. That seems a little hacky but it would work. Also you could replace 256 with 1 << (sizeof(unsigned char) - 1) for less implementation dependency. – japreiss Jan 13 '12 at 17:34

Good job, now learn about the standard library algorithms and boost:

str.erase(std::remove_if(str.begin(), str.end(), boost::is_any_of("lor")), str.end());
share|improve this answer
Thanks. That's awesome. I did not know about boost:is_any_of. – Vinay Jan 12 '12 at 22:49

Here is a KISS solution with many advantages:

void remove_chars (char *dest, const char *src, const char *excludes)
    do {
        if (!strchr (excludes, *src))
            *dest++ = *src;
    } while (*src++);
    *dest = '\000';
share|improve this answer

You can ping pong between strcspn and strspn to avoid the need for a hash table:

void remove_chars(
    const char *input, 
    char *output, 
    const char *characters)
    const char *next_input= input;
    char *next_output= output;

    while (*next_input!='\0')
        int copy_length= strspn(next_input, characters);
        memcpy(next_output, next_input, copy_length);

        next_output+= copy_length;

        next_input+= copy_length;
        next_input+= strcspn(next_input, characters);
share|improve this answer

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