Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Got little problem here.

I created dynamic array:

   m_elements  = new struct element*[m_number_of_elements];
   for(int i = 0; i < m_number_of_elements; i++)
       m_elements[i] = new struct element[m_element_size];

then I tried to resize existing array:

   m_elements[m_number_of_elements] = create_more_elements();

create_more_elements() is a function:

   struct index* create_more_elements()
        struct element* tmp = new struct element[m_number_of_elements]
        return tmp;

In general, this piece of code works, but sometimes I get segfaults in different places. Are segfaults connected with resizing? Any thoughts?

share|improve this question

4 Answers 4

up vote 4 down vote accepted

You should use std::vector for it, then you can with new allocate memory for new struct and push her pointer to vector, if you deleting you should delete on pointer.

share|improve this answer
I agree with you, but I have about 1000 lines of code and I hope not to change everything))). –  qutron Nov 29 '10 at 14:50
This solve the array handling, but not the memory handling of the actual structs. Since the OP seems to be coming from C, it is good advice to try and stop allocating everything with new just because you can. Most of the time, vector<foo> is a better idea than vector<foo*>. –  Mephane Nov 29 '10 at 14:52
@qutron: Better to change at 1000 lines now than to find out at 10000 lines that you should have used a vector from the start. ;) –  Mephane Nov 29 '10 at 14:54
ok, thanks))))) –  qutron Nov 29 '10 at 14:57
m_elements[i] = new struct element[m_element_size];

This creates an array of element of size m_element_size

To dynamically create a struct, just use new struct element or new element.

If don't have to initialize values in your array, you may even be better not storing pointers but actual objects in your array:

m_elements = new element[m_number_of_elements];

To "resize" an array, you actually have to allocate a new bigger array, copy the content of current array in the new one, and delete the old array.

// Allocate new array
element* newArray = new element[m_number_of_elements + 1];
// Copy old array content into new one
memcpy(newArray, m_elements, m_number_of_elements * sizeof(element)];
// Delete old array
delete[] m_elements;
// Assign new array
m_elements = newArray;
// Keep new size
m_number_of_elements += 1;

But you should definitely use std::vector which is simpler and smarter than that:

std::vector<element> elements;

// Add an element
Element element;
share|improve this answer

Try this:

std::vector<element> m_elements;

Don't go the route of manually managing an array unless absolutely necessary - std::vector will do a far better job, is better tested, proven, standardized and understood by legions of C++ programmers. See my code example - not even a single new or delete statement, yet this code also contains all required memory management.

P.S.: Since this question is tagged as C++, you don't have to write struct element whereever you use it as a type, just element will suffice. This suggests you are coming from C, so my advice: learn about the STL before you continue what you're doing, a single hour spent learning how to use the standard container classes can save you many days of manual tweaking, debugging and bug-fixing. Especially since once you've learnt one, you already know like 80% about all the others. :)

share|improve this answer

It is a wonder that you code even works. Basically what you are doing is overwriting memory after your initially allocated array. In C++ you can't resize the array, you can only delete it and new up a new one.

element** tmp = new element*[m_number_of_elements];
for(int i = 0; i < m_number_of_elements; i++)
    tmp[i] = m_elements[i]
delete m_elements;
m_elements = tmp;

m_elements[m_number_of_elements] = create_more_elements();    

But, that is really crufty. As Svisstack points out, you should use std::vector or any other suitable standard container.

std::vector<element*> m_elements;

// ...

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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