I have a reference to std::vector<char> that I want to use as a parameter to a function which accepts std::vector<unsigned char>. Can I do this without copying?

I have following function and it works; however I am not sure if a copy actually takes place - could someone help me understanding this? Is it possible to use std::move to avoid copy or is it already not being copied?

static void showDataBlock(bool usefold, bool usecolor,
            std::vector<char> &chunkdata)  
  char* buf = chunkdata.data();                      
  unsigned char* membuf = reinterpret_cast<unsigned char*>(buf); 
  std::vector<unsigned char> vec(membuf, membuf + chunkdata.size()); 
  showDataBlock(usefold, usecolor, vec);   

I was thinking that I could write:

std::vector<unsigned char> vec(std::move(membuf),
                               std::move(membuf) + chunkdata.size());  

Is this overkill? What actually happens?

  • std::vector<unsigned char> vec(membuf, membuf + chunkdata.size()); makes a copy of the data in chunkdata – M.M Jan 4 '17 at 11:30
  • 2
    based on the name of showDataBlock perhaps it could be redesigned to take a generic iterator pair – M.M Jan 4 '17 at 11:35
  • @WhiZTiM: No, there's a second overload (not shown) that takes a std::vector<unsigned char> as its third parameter. I do wonder why the overload shown takes its third argument by non-const reference, though. If the other overload also takes its argument by non-const reference, then it presumably modifies it, and the code shown fails to copy back the modifications from vec to chunkdata. – MSalters Jan 4 '17 at 12:16
  • @MSalters, please is the casting in this likely to inhibit certain optimizations as per the OP's concern in the comments of that answer? – WhiZTiM Jan 5 '17 at 15:21
  • 1
    @serup - I've edited the title again; if you still think it's not helpful, you're always able to edit your own post. – Toby Speight Jan 17 '17 at 13:46

...is it possible to use std::move to avoid copy or is it already not being copied

You cannot move between two unrelated containers. a std::vector<char> is not a std::vector<unsigned char>. And hence there is no legal way to "move ~ convert" the contents of one to another in O(1) time.

You can either copy:

void showData( std::vector<char>& data){
    std::vector<unsigned char> udata(data.begin(), data.end());
    for(auto& x : udata)
        modify( x );

or cast it in realtime for each access...

inline unsigned char& as_uchar(char& ch){
    return reinterpret_cast<unsigned char&>(ch);

void showDataBlock(std::vector<char>& data){
    for(auto& x : data){
        modify( as_uchar(x) );
  • this solution seems correct, however it could be performance wise not so good, so I decided to use another solution – serup Jan 5 '17 at 12:50
  • First rule of performance tuning is "measure". Though, for any good optimizing compiler(obviously modern versions of Clang, GCC, MSVC, Intel are), there should be no code generated for the cast... However, I cannot comment on the optimization implications... MSalters answered this question years ago. He is definitely in a better position to comment on whether this particular case may inhibit certain optimizations. – WhiZTiM Jan 5 '17 at 15:10
  • 1
    As it happens, unsigned char& is a special case. Basically, for memcpy to work, unsigned char& must be able to alias anything. So the existing ` modify(unsigned char&)` function would already block optimizations that this as_uchar() method would also block. – MSalters Jan 5 '17 at 15:26

As others already pointed out, there is no way around the copy without changing showDataBlock.

I think you have two options:

  1. Extend showDataBlock to work on both signed char and unsigned char (ie. make it a template) or
  2. Don't take the container as argument but an iterator range instead. You could then (in case of value_type being char) use special iterators converting from signed char to unsigned char elementwisely.
  • thank you for your advise about extending my function to handle both - I ended up doing just that – serup Jan 5 '17 at 12:51

I guess you coded another overloaded function :-

showDataBlock(usefold, usecolor, std::vector<unsigned char> & vec);  

You try to convert from std::vector<T> to another std::vector<T2>.

There is no way to avoid the copying.

Each std::vector has its own storage, roughly speaking, it is a raw pointer.
The main point is : you can't share such raw pointer among multiple std::vector.
I think it is by design.
I think it is a good thing, otherwise it would waste CPU to keep track.

The code ...


... move the raw pointer = actually do nothing. (same as passing as membuf)

To optimize, you should verify the reason : why you want to convert from std::vector<char> to std::vector<unsigned char> in the first place.

Is it a better idea if you create a new class C that can represent as both char and unsigned char? (e.g. C::getChar() and C::getUnsignedChar(), may be ... store only char but provide converter as its non-static function)

If it doesn't help, I suggest creating a new custom data-structure.
I often do that when it is needed.

However, in this case, I don't think it need any optimization.
It is OK for me, except it is a performance critical code.

  • 3
    It is by design. There's std::shared_ptr when you want to share storage, and you can combine the two: std::shared_ptr<std::vector<char>> – MSalters Jan 4 '17 at 12:19
  • 1
    @MSalters Good point sir! std::shared_ptr<std::vector<char>> is a cool notation. ...... "It is by design." <-- It would be nice if I can see the ancient C++ community meeting document. ..... By the way, do you also use it (shared_ptr<vector<T>>) in some real cases? Do you encapsulate it? I am curious. :) – javaLover Jan 4 '17 at 12:43
  • 2
    I can't recall a specific case, but it's not exotic code at all. E.g. when you have a sender and a receiver, and they share the buffer in between, then you would expect the receiver to have a std::shared_ptr<vector<T>> and the sender to have a std::weak_ptr<std::vector<T>>. (The sender doesn't need to keep the buffer alive after the receiver quits) – MSalters Jan 4 '17 at 12:51

If you have a v1 of type std::vector<T1> and need a v2 of type std::vector<T2> there is no way around copying the data, even if T1 and T2 are "similar" like char and unsigned char.

Use standard library:

std::vector<unsigned char> v2;
std::copy(v1.begin(), v1.end(), std::back_inserter(v2));

The only possible way around it is to somehow work with only one type: either obtain std::vector<T2> from the start if possible, or work with std::vector<T1> from now on (maybe add an overload that deals with it). Or create generic code (templates) that can deal with any [contigous] container.

I think reinterpret_cast and std::move should make it possible to avoid copy
no, it can't
please elaborate - why not?

A vector can steal resources (move data) only from another vector of the same type. That's how it's interface was designed.

To do what you want you would need a release() method that would release the vector ownership of the underlying data and return it as a (unique) pointer and a move constructor/assignment that would acquire the underlying data from a (unique) pointer. (And even then you would still require an reinterpret_cast which is... danger zone)

std::vector has none of those. Maybe it should have. It just doesn't.

  • I think reinterpret_cast and std::move should make it possible to avoid copy – serup Jan 5 '17 at 12:49
  • @serup no, it can't – bolov Jan 5 '17 at 14:05
  • please elaborate - why not? – serup Jan 17 '17 at 9:18
  • @serup A vector can steal resources (move data) only from another vector of the same type. That's how it's interface was designed. To do what you want you would need a release() method that would release the vector ownership of the underlying data and return it as a (unique) pointer and a move constructor of vector that would acquire the underlying data from a (unique) pointer. std::vector has none of those. – bolov Jan 17 '17 at 9:22
  • 1
    @serup it could. But it doesn't. As I've said, std::vector doesn't have an interface that allows manual ownership acquire/release of it's internal buffer. The only way to move to a vector is from a std::vector of the same type. That's how std::vector is designed. – bolov Jan 17 '17 at 9:33

while unsigned char and char are unrelated types. I think they're similar enough in this case (same size pods) to get away with a reinterpret_cast of the entire templated class.

static void showDataBlock(bool usefold, bool usecolor,
            std::vector<char> &chunkdata)  
  showDataBlock(usefold, usecolor, reinterpret_cast< std::vector<unsigned char>&>(chunkdata));   

However, I tend to find these problems are due to not designing the best architecture. Look at the bigger picture of what it is that this software is supposed to be doing to identify why you need to work wit both signed and unsigned char blocks of data.


I ended up doing something like this :

static void showDataBlock(bool usefold,bool usecolor, std::vector<char> chunkdata)
    std::vector<unsigned char>&cache = reinterpret_cast<std::vector<unsigned char>&>(chunkdata);                                              
    showDataBlock(usefold, usecolor, cache);    

static bool showDataBlock(bool usefold,bool usecolor, std::vector<unsigned char> &chunkdata)   
    // showing the data

This solution allowed me to pass vector as ref or as normal it seems to be working - if its the best solution I do not know, however you all came with some really good suggestions - thank you all

I agree I can not avoid the copy, so I let the copy be done with normal parameter passing

Please if you find this solution wrong, then provide a better one in comment, not just downvote

  • this solution is based on others suggestions combined with trial and errors, so it is a serious solution and working – serup Jan 5 '17 at 12:55
  • if you vote down then write why - otherwise you are not really serious – serup Jan 5 '17 at 13:00
  • std::vector<char> and std::vector<unsigned char> are 2 classes completely unrelated (even though generated from the same template). reinterpret_cast between them is Undefined Behavior. – bolov Jan 17 '17 at 9:37
  • @bolov, then why is this working? – serup Jan 17 '17 at 11:34
  • @bolov, the undefined behaviour would that relate to how the ref pointer is past on or ?? – serup Jan 17 '17 at 11:41

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.