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I am very familiar with Java and this is allowed there. However it looks like it's not with C++. I'm getting an "invalid array assignment" when trying to assign valuesToGrab = updatingValues;.

//these are class attributes
int updatingValues[361] = {0};
int valuesToGrab[361] = {0};

//this is part of a function that is causing an error. 
for (unsigned int i=0; i < 10; i++) {

    //this fills values with 361 ints, and num_values gets set to 361. 

    //values has 361 ints, but a size of 2882, so I copy all the ints to an array
    //of size 361 to "trim" the array.
    for(int z = 0; z < num_values; z++){
        updatingValues[z] = values[z];

    //now I want to assign it to valuesToGrab (another program will be 
    //constantly grabbing this array, and it can't grab it while it's being
    //populated above or there will be issues
    valuesToGrab = updatingValues; // THROWING ERROR

I don't want to have to iterate through updatingValues and add it to valuesToGrab one by one, but if I have to I will. Is there a way I can assign it in one function with C++?


share|improve this question
For a C-Style array memcpy or memmove – Joe Dec 13 '11 at 20:59
"trimming" the array seems totally unnecessary. Trimming and then copying, doubly so. – Ben Voigt Dec 13 '11 at 21:01
You really, really should learn about memory management in C & C++. – Rob K Dec 13 '11 at 21:57
Also, your comment "//now I want to assign it to valuesToGrab (another program will be //constantly grabbing this array, and it can't grab it while it's being //populated above or there will be issues" strongly implies the need for process synchronization via mutex or critical section. – Rob K Dec 13 '11 at 21:58
Thank you guys. I agree that the trimming is unnecessary and I knew I had to look into threading with C++ sometime. I've also heard that memory management is very important in C++ so I will look into that too. – user1028641 Dec 13 '11 at 23:07
up vote 6 down vote accepted

The standard idiom for copying in C++ is

#include <algorithm>
std::copy(values, values+num_values, updatingValues);

make sure updatingValues is large enough or you will get overruns and bad things will happen.

That said in C++ we generally use a std::vector for this sort of task.

#include <vector>
std::vector<int> updatingValues=values; //calls vectors copy constructor

I vector does everything an array does (including static initalization in C++11), but has a well define interface. with iterators, size, empty, resize, push_back and more.

EDIT It is also worth noting that you can combine vector and arrays.

std::vector<int> vect(my_array, my_array+10);
std::vector<int> another_vector;
another_vector.assign(my_array, my_array+10);//delayed population

and visa-versa

std::copy(vect.begin(), vect.end(), my_array); //copy vector into array.
share|improve this answer

First of all, I don't think this will do what you're looking for because valuesToGrab = updatingValues; will overwrite your valuesToGrab every cycle of the outer loop.

Assuming you did want to do this though, and you didn't want to change to a vector:

std::copy(updatingValues, updatingValues+361, valuesToGrab);

will do it. You can treat a normal array just like a std:: container in any std::algorithm, the pointers count as random access iterators.

Rethink your design though, you shouldn't need to "trim" and you probably don't need to copy.

share|improve this answer
That is what I want to do. I just want valuesToGrab to have the most recent complete scan. If I don't have this array and instead have a method that gets updatingValues, then it might get it while it's getting re-filled and return a half-full array. You're right about the trimming. I think I can just ignore that. Thank you. – user1028641 Dec 13 '11 at 23:04

In C++, the idiomatic container to use in place of arrays is std::vector. With vector or with arrays, you can use the std::copy() function from the <algorithm> header, which is the preferred way of copying containers of any sort in C++. With vector:

std::vector<int> updatingValues, valuesToGrab;

// Ensure the vector has sufficient capacity to accept values.

// Copy values from the array into the vector.
std::copy(values, values + 361, updatingValues.begin());
//        Source begin & end;   Destination begin.

// Copy one vector to another.
valuesToGrab = updatingValues;

With arrays:

std::copy(valuesToGrab, valuesToGrab + 361, updatingValues);

Again with just arrays, if you are going for more of a C style, you can use the C standard library function memcpy(), from <cstdlib>:

memcpy(valuesToGrab, updatingValues, 361 * sizeof(int));
//     Destination;  Source;         Number of bytes.

With memcpy() (and its cousin, memmove()), you must be careful about the size of the elements you’re copying; if you say 361 instead of 361 * sizeof(int), you’ll copy 361 bytes, not 361 ints’ worth of bytes—a big difference.

share|improve this answer
You should clarify that the memcpy applies only if you want to copy from an array to another array (although you can use it to copy between vectors of PODs if you get a pointer to the involved elements). – Matteo Italia Dec 13 '11 at 21:10
Ok, +1 :) (also to counterbalance the IMHO unjustified -1) – Matteo Italia Dec 13 '11 at 21:20
you can use vector::assign instead of copy. it will allocate the space for you. – 111111 Dec 13 '11 at 21:45

Keep in mind that arrays are implemented as pointers in C and C++.

In particular an array on the stack can be visualized as a pointer to a constant location in memory that has the capacity that you requested for the array. This memory is on the stack. When you try valuesToGrab = updatingValues, you could think of this as trying to copy the address of updatingValues to the variable valuesToGrab. This is NOT attempting a deep copy, which you seem to be attempting. However, valuesToGrab points to a constant location in memory and cannot be updated. The standard is a little more specific on this and explicitly forbids the assignment of arrays, which is why you're getting the specific error that you're seeing.

You will need to use a loop or something like std::copy or C's memcpy to copy the values from one array to the other.

share|improve this answer
Arrays aren’t pointers. The name of an array is convertible to a pointer in expressions. – Jon Purdy Dec 13 '11 at 21:06

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