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I am working on a network programming and I have seen people using vector as the input buffer for socket instead of char array.

I was wondering what it the advantage of doing this.

Thanks in advance..

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i'm like the kind of person that does so. if you've ever worked with java nio and familiar with IoBuffer, you'll see why vector<char> is a handy alternative in C++. –  tactoth Dec 29 '12 at 3:50

5 Answers 5

up vote 5 down vote accepted

A vector<char> is essentially just a managed character array.

So you can write:

    vector<char> buf(4096);
    int result = recv(fd, &buf[received_so_far], buf.size() - received_so_far);

The vector "knows" its size, so you can use buf.size() everywhere and never have to worry about overrunning your buffer. You can also change the size in the declaration and have it take effect everywhere without any messy #defines.

This use of buf will allocate the underlying array on the heap, and it will free it automatically when buf goes out of scope, no matter how that happens (e.g. exceptions or early return). So you get the nice semantics of stack allocation while still keeping large objects on the heap.

You can use buf.swap() to "hand ownership" of the underlying character array to another vector<char> very efficiently. (This is a good idea for network traffic... Modern networks are fast. The last thing you want to do is to create yet another copy of every byte you receive from the network.) And you still do not have to worry about explicitly freeing the memory.

Those are the big advantages that come to mind off the top of my head for this particular application.

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+1. Nice. char[15] –  Nawaz Jun 22 '11 at 5:26
Thanks for your kind answer. The way I copied the vector vector<char> copyVector(m_vbuffer); Should I do swap instead of copy? What is advantage of swap over copy? –  user800799 Jun 22 '11 at 6:02
In this case there is not much advantage for swap. If a vector did not default-initialize its contents then there would be a benefit. But it does, and writing zeros into memory takes just as much time as copying to another vector. –  Zan Lynx Jul 9 '12 at 23:19
@Zan: There is an advantage if you swap with a zero-size vector, which is actually what I had in mind. –  Nemo Jul 10 '12 at 3:54
@Nemo: But a C library function like recv needs an allocated buffer. It doesn't know how to expand a vector. –  Zan Lynx Jul 10 '12 at 21:03

using vector is:

  • easy to grow-up space of memory.
  • easy to make copy of datas.
  • easy to free.
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My main reason:

  • Its Exception Safe.
    • No matter what goes wrong the vector will not leak memory.
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Unless vector is allocated on heap! –  Ajay Jun 22 '11 at 16:59
@Ajay: No such thing as a heap in C++ context. What you really mean is "Dynamic Storage Duration" object. And it not relevant to the question as any "Dynamic Storage Duration" objects should be wrapped in some form of smart pointer and the point of the vector is to replace "Dynamic Storage Duration" arrays of char as the data area is dynamically allocated. –  Loki Astari Jun 22 '11 at 17:29
I just mentioned that if vector<T> itself is stored in heap, and that heap-memory isn't freed, the vector has implicitly leaked memory. No, not the fault of vector. Even memory leak detection tools won't blame vector, but the location where vector was allocated on heap. :) –  Ajay Jun 22 '11 at 17:33
@Ajay. As I said. There is no such things as a heap. "Dynamic Storage Duration Object" –  Loki Astari Jun 22 '11 at 19:55

vector can be easily resized and allows convenient partial deletion of data - that's big advantage. In many cases having a fixed size array is inconvenient - for example you will read blocks of data and process received data in chunks smaller than received chunks. Then you want to know the actual amount of data left - that will be vector.size() and you won't have to store it in a separate variable and when you delete part of the data vector will move the remaining for you.

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Is size() constant time? If so, then this can also be advantageous to a naked (null terminated) char array. –  Merlyn Morgan-Graham Jun 22 '11 at 5:17
Nm, your edit captured it :) –  Merlyn Morgan-Graham Jun 22 '11 at 5:17
@Merlyn Morgan-Graham: You often manipulate data that is not null terminated in the first place. –  sharptooth Jun 22 '11 at 5:22
"Deleting part of the data" is a horrible idea with vector, actually. It does work, but it is extremely inefficient. –  Nemo Jun 22 '11 at 5:24
@Nemo: It's not the most efficient operation, but if you delete a huge part of a rather small vector it isn't a big problem. –  sharptooth Jun 22 '11 at 5:31

If you've ever programmed network applications in Java, you are likely to be familiar with ByteBuffer and IoBuffer. The two classes made buffer handling significantly easier with pretty easy and intuitive interface.

In the world of C++, very fortunately, with the standard vector class everything provided by this two class is what you can use. Since vector can dynamically grow, it's even more powerful than ByteBuffer and IoBuffer. Just write your code and you'll find everything you would expect in a byte buffer wrapper is just there.

Some obvious advantage:

  • Preallocate memory with vector::reserve
  • Remember buffer position with vector::size
  • Grow/clear buffer with vector::resize
  • Convert to C buffer with &your_vector[0]
  • Transfer buffer ownership with vector::swap
  • ... and more to be discovered.
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