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I have a function that operates on 128-bit blocks of data from an arbitrary-length string. If the string is not evenly divisible into chunks of 128 bits, it will be padded accordingly.

The purpose is to transform the data in the string that is fed into the function.

I initially thought of looping through the string a such:

//This might have stupid errors.  Hopefully it stillg gets the point across.
for (int i = 0; i < strn.size(); i += 16)
{
    string block = strn.substr(i, i + 15);
    strn.replace(i, i + 15, block);
}

I guess this would work, but I'm thinking there must be a more elegant way to do this. One idea that came to mind was to encapsulate strn in a class and implement my own iterator that can read its contents in 128-bit chunks. This is appealing because the constructor could handle padding and some of the functions I currently use could be made private, thus avoiding potential misuse. Does this seem like a fruitful approach? If so, how does one go about implementing his own iterator? Detailed explanations are most welcome, as I'm very inexperienced with C++.

Are there other, perhaps better, approaches?

Thanks!

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up vote 2 down vote accepted

There are many approaches. One of the more simple and straightforward ones would be like this: you can create your own type sized exactly 128 bit; simple struct will do the job.

typedef struct
{
    char buf[16];
} _128bit;

And use it to iterate over your string. Cast the beginning of your string to this struct type:_128bit* start = (_128bit*)buffer; and start iterating with it, using the integral pointer arithmetic. All operations on start will operate in terms of its size. E.g. ,start++ will move 128 bits forward; start-- will move 128 bit back. Once you're at the desired position, recast it to the desired type and perform your manipulations.

share|improve this answer
    
That sounds like a simple and elegant approach! Just a few questions: 1) Is there a reason for the underscore in _128bit? 2) Why the typedef? I'm guessing this allows me to cast other variables and constants as its type... is my inuition correct? 3) How is it that the ++ operator is already overloaded in this example? Why don't I have to do it explicitly? Many thanks and many apologies for my ignorance of finer C++ constructs! =) – blz Nov 6 '12 at 17:10
1  
1. If I recall correctly, variables names can't begin with a digit. 2. Hmm, no need actually in C++, in C this can shorten the code :). 3. That's the advantage of pointer arithmetic, it operates in terms of the pointed elements, see here for more details: stackoverflow.com/questions/394767/pointer-arithmetic BTW, this is a pure C solution, no C++ features used – SomeWittyUsername Nov 6 '12 at 17:13
    
Ok that makes sense. I'm still a bit unclear on the bit about typedefs, though. Doesn't the typedef keyword allow you to create a new type name? As such, shouldn't your example specify a name for the structure you've defined? ... something like typedef struct{...} ? – blz Nov 6 '12 at 17:25
    
That's exactly what it does: typedef struct {/* new type definition */} new_type_name; – SomeWittyUsername Nov 6 '12 at 17:27
    
@icepick, facepalm. Yes, yes... you're absolutely right! Thank you for the help! – blz Nov 6 '12 at 17:29

I would probably do this with iterators rather than indexing, still using your own for loop:

const int NUM_BITS_IN_CHUNK = 128;
const int CHUNK_SIZE = NUM_BITS_IN_CHUNK / CHAR_BIT;

for(std::string::const_iterator iter = str.begin(); iter < str.end(); iter += CHUNK_SIZE)
{
    your_func(iter, iter + CHUNK_SIZE);
}

The boost::iterator_adaptor code would look something like this. Note that I'm only getting four bytes per chunk instead of 16 for simplicity in the example.:

#include <iostream>
#include <string>

#include <boost/iterator_adaptors.hpp>

struct string_chunk_iterator : public boost::iterator_adaptor<string_chunk_iterator, std::string::const_iterator>
{
    string_chunk_iterator(const std::string::const_iterator& base) : iterator_adaptor(base) { }

private:
    friend class boost::iterator_core_access;
    void increment() { this->base_reference() = this->base() + 4; }
    void advance(typename iterator_adaptor::difference_type n)
    {
        this->base_reference() = this->base() + (4 * n);
    }
};

int main()
{
    const std::string tester(20, 'A');

    string_chunk_iterator iter(tester.begin());
    string_chunk_iterator str_end(tester.end());

    for(; iter != str_end; ++iter)
    {
        std::string chunk(&*iter, &*(iter + 1));

        std::cout << chunk << std::endl;
    }

    return 0;
}
share|improve this answer
    
Is there a way to subclass std::string::const_iterator such that incrementing it with ++ or calling iter.next() will increment by 128 bits? Also, I'm a bit confused. I would have thought that iter += 128 would move the pointer 128 bytes (or indexes). What am I missing? – blz Nov 7 '12 at 21:30
1  
@blz I believe you could use boost::iterator_adapter to create such an iterator, but I have little experience with that part of boost. You're correct that iter += 128 would indeed increment by 128 bytes. Luckily, that's not what I'm doing in my code: I'm incrementing by 16 (bytes). That's why I created the constants, to make sure that it still works even on say a system with 16 bit char. – Mark B Nov 7 '12 at 23:37

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