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I'm modifying some code I found to be inside a C++ object. Message is a c++ class.

The original line of code looks like this:

unsigned char fifoQueue[256 * sizeof(Message)] = {0};

Since I'm putting it into an object, I'm doing this:

///in header
unsigned char fifoQueue;

///in object initializer
fifoQueue = new unsigned char[256 * sizeof(Message)];

Somehow I don't think that is correct. What's the correct implementation to get the same result? I'm just a bit cloudy about how this works - In the given example fifoQueue is a pointer to a memory location, correct? Should my object have the fifoQueue instance variable as a pointer to a "Message" array, instead?


/////// Okay, I'm adding some information here that is relevant to the way this is being used. Sorry for not including this before.

There is a method that accesses this value as a pointer and increments it based on a read/write location. So I need the new initializer such that this method works correctly.

Message* Fifo::getMessageToWrite(){

    Message* base = (Message*)fifoQueue;
    return new(base + (fifoWritePtr & 255)) Message();

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This looks like an XY problem, so there's probably a much better solution, but for now try std::vector<char> fifoQueue and initialize it with fifoQueue(256 * sizeof(int)). –  Kerrek SB Jan 31 '12 at 20:35
Why don't you like the original? –  Christian Ammer Jan 31 '12 at 20:36
I made an edit --- int has been replaced by Message, since really its an array of objects.... –  olynoise Jan 31 '12 at 20:39
Christian- I'd like it to be an instance variable. So I believe I need to declare the instance variable in the header and then initialize it in the initializer. I don't think I can do that directly in the header, can i? –  olynoise Jan 31 '12 at 20:42

3 Answers 3

up vote 1 down vote accepted

From the looks of it, you want to pass objects of type Message through a queue. For this, the proper C++ mechanism is to use std::queue<Message>: it will grow to an appropriate size when pushing new messages into the queue. Unlike the std::vector<T> proposed in other answers, this actually uses a std::deque<Message> under the hood (you can use a std::deque<Message> directly but if you want a queue just use a queue).

The advantage of using a std::queue<Message> is that the object inside this queue stays put while they keep being shuffled around in a std::vector<Message>: while std::vector<T> only supports efficient (i.e. O(1)) addition/removal at the back as is e.g. used for a stack (LIFO), std::deque<T> supports efficient addition/removal at both ends as is needed for a queue (FIFO). I think the complexity of adding/removing to a std::deque<T> is only amortized constant but this is still better than linear complexity you'd get with a std::vector<T> when using it as a FIFO.

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thanks this is very helpful. –  olynoise Jan 31 '12 at 21:18

The second version declares an unsigned char and tries to assign a unsigned char* to it. This is not going to work and even so it is not clear to me why you would allocate enough space for 256 intS and assign them to a unsigned char* unless you are doing something very low level. A std::vector is probably the better choice anyway.

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Sorry, I've made an edit here to reflect the problem better. Instead of Int, the fifoQueue is for storing an object called Message. –  olynoise Jan 31 '12 at 20:37
@olynoise And you are sure that the code accessing fifoQueue deals with alignment, padding and endianess? Otherwise I don't see why you are using a pointer to unsigned char? –  pmr Jan 31 '12 at 20:42
@olynoise You maybe should not refactor this without knowing what you are doing. It looks dangerous. –  pmr Jan 31 '12 at 20:46
pmr you are probably right, but how else does one learn!? –  olynoise Jan 31 '12 at 20:49
@olynoise By reading and writing code (that is not over your head) and with a good book. –  pmr Jan 31 '12 at 21:10

Piece of cake: std::vector is more preferable way instead of manual dynamic memory allocation (plain-old pointers).

#include <vector>
std::vector<char> fifoQueue(256);
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