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I'm writing a small program that reads the bytes from a file in binary file in groups of 16 bytes (please don't ask why), modifies them, and then writes them to another file.

The fstream::read function reads into a char * buffer, which I was initially passing to a function that looks like this:

char* modify (char block[16], std::string key)

The modification was done on block which was then returned. On roaming the posts of SO, I realized that it might be a better idea to use std::vector<char>. My immediate next worry was how to convert a char * to a std::vector<char>. Once again, SO gave me an answer.

But now what I'm wondering is: If its such a good idea to use std::vector<char> instead of char*, why do the fstream functions use char* at all?

Also, is it a good idea to convert the char* from fstream to std::vector<char> in the first place?

EDIT: I now realize that since fstream::read is used to write data into objects directly, char * is necessary. I must now modify my question. Firstly, why are there no overloaded functions for fstream::read? And secondly, in the program that I've written about, which is a better option?

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Not really sure if this is helpful, but you can read it into the std::vector directly by using something like .read(&vect[0], 16) (or .read(vect.data(), 16) if you're using C++11), to avoid using the char* middleman. Just be sure you allocate enough space for the data using .resize. –  Xymostech Mar 12 '13 at 5:32
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I would say that not all buffers are std::vector<char> (sometimes you're a library given a char* to read data into). It would be a little weird if std::fstream forced you to use std::vector<char> instead of allowing many variants (raw arrays, std::array, etc.). Plus, sometimes you're reading/deserializing data straight into a type (like int), in which case a std::vector<char> is just... weird. –  Cornstalks Mar 12 '13 at 5:33
    
@Xymostech: Doesn't passing pointers mildly defeat the initial purpose of not using pointers? Or is passing a pointer to a std::vector safe? –  Vivek Ghaisas Mar 12 '13 at 5:36
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@VivekGhaisas: "is passing a pointer to a std::vector safe?" - as long as it's been pre-sized. There's nothing wrong with using pointers for a binary operation - those read/write functions don't need to know about the objects being written, just an address and number of bytes. If you want more safety in your own application, write a layer over them - e.g. a serialisation routine for your objects: then there's only one central place that needs to fiddle with address and sizeof. –  Tony D Mar 12 '13 at 5:40
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@VivekGhaisas: for you, it appears useful. For someone else, a vector<double> seems useful. Someone else, a deque<float>. Pretty soon there's so many overloads of read() it's hard to see what the fstream class does... ;-) –  Tony D Mar 12 '13 at 7:13

2 Answers 2

To use it with a vector, do not pass a pointer to the vector. Instead, pass a pointer to the vector content:

vector<char> v(size);
stream.read(&v[0], size);
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And would you recommend I use a std::vector<char> at all, considering what the program does? –  Vivek Ghaisas Mar 12 '13 at 5:54
    
@Vivek: No, not unless you need a dynamic size, or swap. –  Ben Voigt Mar 12 '13 at 6:38
    
I do need to swap the values of individual characters, but I don't need anything dynamic. So finally, std::vector<char> or char* ? –  Vivek Ghaisas Mar 12 '13 at 6:44
    
@Vivek: char block[16]; stream.read(block, 16); should work just fine if you don't need dynamic size –  Ben Voigt Mar 12 '13 at 16:33

fstream() functions let you use char*s so you can point them at arbitrary pre-allocated buffers. std::vector<char> can be sized to provide an appropriate buffer, but it will be on the heap and there's allocation costs involved with that. Sometimes too you may want to read or write data to a specific location in memory - even in shared memory - rather than accepting whatever heap memory the vector happens to have allocated. Further, you may want to use fstream without having included the vector header... it's nice to be able to avoid unnecessary includes as it reduces compilation time.

As your buffers are always 16 bytes in size, it's probably best to allocate them as char [16] data members in an appropriate owning object (if any exists), or on the stack (i.e. some function's local variable).

vector<> is more useful when the alternative is heap allocation - whether because the size is unknown at compile time, or is particularly large, or you want more flexible control of the memory lifetime. It's also useful when you specifically want some of the other vector functionality, such as ability to change the number of elements afterwards, to sort the bytes etc. - it seems very unlikely you'll want to do any of that so a vector raises questions in the mind of the person reading your code about what you'll do for no good purpose. Still, the choice of char[16] vs. vector appears (based on your stated requirements) more a matter of taste than objective benefit.

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So if I understand correctly, you're saying that fstream uses char* to allow finer control? Also, you're suggesting that char[16] might be a better option in my case? –  Vivek Ghaisas Mar 12 '13 at 5:38
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Arguably, it should be void* to be useful. –  Ben Voigt Mar 12 '13 at 5:40
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@VivekGhaisas: yes - with char* you can be pointed at anything anywhere in memory, whereas if it expected say a std::vector<char> or a std::string, then you have to live with the overheads in terms of additional data members in those objects (recording begin/end, capacity...), their choices as to where memory gets allocated, and their management of lifetimes. Far less flexible. char[16] sounds fine from the description in your question: it's the most direct representation of your data needs. –  Tony D Mar 12 '13 at 5:45
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@BenVoigt: agreed, though there's a certain (dangerous) convenience in being able to do arithmetic on char*. –  Tony D Mar 12 '13 at 5:47
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@BenVoigt: Actually, void* would be too dangerous because you could pass the address of any old thing. char* forces the caller to understand the thing they're pointing at needs to be able to be treated as an array of bytes (standard layout). –  GManNickG Mar 12 '13 at 5:47

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