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How can I realloc in C++? It seems to be missing from the language - there is new and delete but not resize!

I need it because as my program reads more data, I need to reallocate the buffer to hold it. I don't think deleteing the old pointer and newing a new, bigger one, is the right option.

3

4 Answers 4

64

Use ::std::vector!

Type* t = (Type*)malloc(sizeof(Type)*n) 
memset(t, 0, sizeof(Type)*m)

becomes

::std::vector<Type> t(n, 0);

Then

t = (Type*)realloc(t, sizeof(Type) * n2);

becomes

t.resize(n2);

If you want to pass pointer into function, instead of

Foo(t)

use

Foo(&t[0])

It is absolutely correct C++ code, because vector is a smart C-array.

8
  • 2
    Shouldnt the memset line be memset(t, 0, sizeof(T) * n);? n instead of m? Commented Mar 3, 2015 at 21:07
  • 1
    @anthom yes. it should really be Type* t = static_cast<Type*>(malloc(n * sizeof *t)); Commented Oct 14, 2015 at 17:49
  • 2
    With C++11 one would now use t.data() instead of &t[0]
    – knedlsepp
    Commented Oct 15, 2015 at 9:29
  • 1
    How can you then delete this?
    – a3mlord
    Commented Oct 22, 2015 at 18:27
  • @a3mlord: What do you mean? Let it fall out of scope, and it's gone. Commented Apr 20, 2016 at 14:25
54

The right option is probably to use a container that does the work for you, like std::vector.

new and delete cannot resize, because they allocate just enough memory to hold an object of the given type. The size of a given type will never change. There are new[] and delete[] but there's hardly ever a reason to use them.

What realloc does in C is likely to be just a malloc, memcpy and free, anyway, although memory managers are allowed to do something clever if there is enough contiguous free memory available.

11
  • 2
    So what would be the right way to implement a growing buffer in C++? Currently I have char *buf = (char *)malloc(size), then when it becomes too small I do buf = realloc(size + more_size); size += more_size. How can I do it with vector?
    – bodacydo
    Commented Aug 14, 2010 at 10:44
  • 6
    @bodacydo: Don't implement the growing buffer, just use std::vector - it will grow automatically when needed and you can pre-allocate memory if you want (reserve()).
    – sharptooth
    Commented Aug 14, 2010 at 10:47
  • 4
    Use std::vector<T>. That's what it's for. In C++, there is no reason whatsoever to use new/delete/new[]/delete[] yourself, unless you're explicitly writing resource management classes.
    – Puppy
    Commented Aug 14, 2010 at 10:49
  • 4
    @bod: Yes, it can. (So can std::string, by the way.) Commented Aug 14, 2010 at 10:51
  • 2
    Sounds like thevector.resize(previous_size + incoming_size), followed by a memcpy (or similar) into &thevector[previous_size], is what you need. The vector's data is guaranteed to be stored "like an array".
    – Thomas
    Commented Aug 14, 2010 at 11:32
44

Resizing in C++ is awkward because of the potential need to call constructors and destructors.

I don't think there's a fundamental reason why in C++ you couldn't have a resize[] operator to go with new[] and delete[], that did something similar to this:

newbuf = new Type[newsize];
std::copy_n(oldbuf, std::min(oldsize, newsize), newbuf);
delete[] oldbuf;
return newbuf;

Obviously oldsize would be retrieved from a secret location, same is it is in delete[], and Type would come from the type of the operand. resize[] would fail where the Type is not copyable - which is correct, since such objects simply cannot be relocated. Finally, the above code default-constructs the objects before assigning them, which you would not want as the actual behaviour.

There's a possible optimisation where newsize <= oldsize, to call destructors for the objects "past the end" of the newly-ensmallened array and do nothing else. The standard would have to define whether this optimisation is required (as when you resize() a vector), permitted but unspecified, permitted but implementation-dependent, or forbidden.

The question you should then ask yourself is, "is it actually useful to provide this, given that vector also does it, and is designed specifically to provide a resize-able container (of contiguous memory--that requirement omitted in C++98 but fixed in C++03) that's a better fit than arrays with the C++ ways of doing things?"

I think the answer is widely thought to be "no". If you want to do resizeable buffers the C way, use malloc / free / realloc, which are available in C++. If you want to do resizeable buffers the C++ way, use a vector (or deque, if you don't actually need contiguous storage). Don't try to mix the two by using new[] for raw buffers, unless you're implementing a vector-like container.

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0

Here's a std::move example implementing a simple vector with a realloc (*2 each time we hit the limit). If there's a way to do better than the copy I have below, pls let me know.

Compile as:

  g++ -std=c++2a -O2 -Wall -pedantic foo.cpp

Code:

#include <iostream>
#include <algorithm>

template<class T> class MyVector {
private:
    T *data;
    size_t maxlen;
    size_t currlen;
public:
    MyVector<T> () : data (nullptr), maxlen(0), currlen(0) { }
    MyVector<T> (int maxlen) : data (new T [maxlen]), maxlen(maxlen), currlen(0) { }

    MyVector<T> (const MyVector& o) {
        std::cout << "copy ctor called" << std::endl;
        data = new T [o.maxlen];
        maxlen = o.maxlen;
        currlen = o.currlen;
        std::copy(o.data, o.data + o.maxlen, data);
    }

    MyVector<T> (const MyVector<T>&& o) {
        std::cout << "move ctor called" << std::endl;
        data = o.data;
        maxlen = o.maxlen;
        currlen = o.currlen;
    }

    void push_back (const T& i) {
        if (currlen >= maxlen) {
            maxlen *= 2;
            auto newdata = new T [maxlen];
            std::copy(data, data + currlen, newdata);
            if (data) {
                delete[] data;
            }
            data = newdata;
        }
        data[currlen++] = i;
    }

    friend std::ostream& operator<<(std::ostream &os, const MyVector<T>& o) {
        auto s = o.data;
        auto e = o.data + o.currlen;;
        while (s < e) {
            os << "[" << *s << "]";
            s++;
        }
        return os;
    }
};

int main() {
    auto c = new MyVector<int>(1);
    c->push_back(10);
    c->push_back(11);
}
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  • Your implementation example has some issues. Of the many, the following are the most relevant: the move constructor simply assigns the members of the source object to the target object, leaving both to point to the same buffer, and therefore a update operation to the resources of ; the move constructor does not accept a const parameter; the push_back() member function should not directly assign the value to a array position, because it is a uninitialized buffer of memory, and then it could result in UB if the copy constructor is not trivial.
    – LoS
    Commented Aug 23, 2023 at 18:29
  • Most important, in the absence of a user-defined destructor, resources can not be released properly (for example, if delete[] is not invoked at object destruction and memory was previously allocated with new[], a memory leak occurs).
    – LoS
    Commented Aug 23, 2023 at 18:30

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