How do i declare a 2d array using new?
Like, for a "normal" array I would:
int* ary = new int[Size]
int** ary = new int[sizeY][sizeX]
a) doesn't work/compile and b) doesn't accomplish what:
A dynamic 2D array is basically an array of pointers to arrays. You should initialize it using a loop:
The above, for
and then clean up would be:
EDIT: as Dietrich Epp pointed out in the comments this is not exactly a light weight solution. An alternative approach would be to use one large block of memory:
In C++11 it is possible:
This way, the memory is not initialized. To initialize it do this instead:
Sample program (compile with "g++ -std=c++11"):
I presume from your static array example that you want a rectangular array, and not a jagged one. You can use the following:
Then you can access elements as:
Don't forget to use delete on
Although this popular answer will give you your desired indexing syntax, it is doubly inefficient: big and slow both in space and time. There's a better way.
Why That Answer is Big and Slow
The proposed solution is to create a dynamic array of pointers, then initializing each pointer to its own, independent dynamic array. The advantage of this approach is that it gives you the indexing syntax you're used to, so if you want to find the value of the matrix at position x,y, you say:
This works because matrix[x] returns a pointer to an array, which is then indexed with [y]. Breaking it down:
Convenient, yes? We like our [ x ][ y ] syntax.
But the solution has a big disadvantage, which is that it is both fat and slow.
The reason that it's both fat and slow is actually the same. Each "row" in the matrix is a separately allocated dynamic array. Making a heap allocation is expensive both in time and space. The allocator takes time to make the allocation, sometimes running O(n) algorithms to do it. And the allocator "pads" each of your row arrays with extra bytes for bookkeeping and alignment. That extra space costs...well...extra space. The deallocator will also take extra time when you go to deallocate the matrix, painstakingly free-ing up each individual row allocation. Gets me in a sweat just thinking about it.
There's another reason it's slow. These separate allocations tend to live in discontinuous parts of memory. One row may be at address 1,000, another at address 100,000—you get the idea. This means that when you're traversing the matrix, you're leaping through memory like a wild person. This tends to result in cache misses that vastly slow down your processing time.
So, if you absolute must have your cute [x][y] indexing syntax, use that solution. If you want quickness and smallness (and if you don't care about those, why are you working in C++?), you need a different solution.
A Different Solution
The better solution is to allocate your whole matrix as a single dynamic array, then use (slightly) clever indexing math of your own to access cells. The indexing math is only very slightly clever; nah, it's not clever at all: it's obvious.
So the equivalent of this in the slow, fat solution:
...is this in the quick, small solution:
Sad, I know. But you'll get used to it. And your CPU will thank you.
This question was bugging me - it's a common enough problem that a good solution should already exist, something better than the vector of vectors or rolling your own array indexing.
When something ought to exist in C++ but doesn't, the first place to look is boost.org. There I found the Boost Multidimensional Array Library,
I recommend reading what C++ FAQ Lite says on the subject. Allocating (and more importantly, properly freeing) a multi-dimensional array using
How to allocate a contiguous multidimensional array in C++ ?
It seems the problem come from operator new . Make sure you use operator new instead :
And that's all : you get a C-compatible multidimensional array...
typedef is your friend
In C++ using new:
Or C style using calloc:
Try doing this:
This problem has bothered me for 15 years, and all the solutions supplied weren't satisfactory for me. How do you create a dynamic multidimensional array contiguously in memory. Today I finally found the answer. Using the following code, you can do just that:
When you invoke the program with the values sizeX=20 and sizeY=15, the output will be the following:
As you can see, the multidimensional array lies contiguously in memory, and no two memory addresses are overlapping. Even the routine for freeing the array is simpler than the standard way of dynamically allocating memory for every single column (or row, depending on how you view the array). Since the array basically consists of two linear arrays, only these two have to be (and can be) freed.
This method can be extended for more than two dimensions with the same concept. I won't do it here, but when you get the idea behind it, it is a simple task.
I hope this code will help you as much as it helped me.
I have left you with a solution which works the best for me, in certain cases. Especially if one knows [the size of?] one dimension of the array. Very useful for an array of chars, for instance if we need an array of varying size of arrays of char.
The key is the parentheses in the array declaration.
declaring 2D array dynamically:
Now in the above code we took a double pointer and assigned it a dynamic memory and gave a value of the columns. Here the memory allocated is only for the columns, now for the rows we just need a for loop and assign the value for every row a dynamic memory. Now we can use the pointer just the way we use a 2D array. In the above example we then assigned random numbers to our 2D array(pointer).Its all about DMA of 2D array.
If your project is CLI (Common Language Runtime Support), then:
You can use the array class, not that one you get when you write:
In other words, not the unmanaged array class you get when using the std namespace and when including the array header, not the unmanaged array class defined in the std namespace and in the array header, but the managed class array of the CLI.
with this class, you can create an array of any rank you want.
The following code below creates new two dimensional array of 2 rows and 3 columns and of type int, and I name it "arr":
Now you can access elements in the array, by name it and write only one squared parentheses
The following code below access an element in 2nd row and 1st column of the array I already created in previous code above:
writing only this line is to read the value in that cell, i.e. get the value in this cell, but if you add the equal
If your project is not CLI, then you can use the unmanaged array class of the std namespace, if you
There is no way to specify rank in this kind of array, rank is CLI array's feature only..
std array behaves like normal array in c++, that you define with pointer, for example
But still std array are one dimensional array, like the normal c++ arrays. But thanks to the solutions that the other guys suggest about how you can make the normal c++ one dimensional array to two dimensional array, we can adapt the same ideas to std array, e.g. according to Mehrdad Afshari's idea, we can write the following code:
This line of code creates a "jugged array", which is an one dimensional array that each of its cells is or points to another one dimensional array.
If all one dimensional arrays in one dimensional array are equal in their length/size, then you can treat the array2d variable as a real two dimensional array, plus you can use the special methods to treat rows or columns, depends on how you view it in mind, in the 2D array, that std array supports.
You also can use Kevin Loney's solution:
but if you use std array, the code must look different:
And still have the unique functions of the std array.
Note that you still can access the elements of the std array using the
You can define your own two dimensional array generic class, and define the constructor of the two dimensional array class to receive two integers to specify the number of rows and columns in the new two dimensional array, and define get function that receive two parameters of integer that access an element in the two dimensional array and returns its value, and set function that receives three parameters, that the two first are integers that specify the row and column in the two dimensional array, and the third parameter is the new value of the element. Its type depends on the type you chose in the generic class.
You will be able to implement all this by using either the normal c++ array (pointers or without) or the std array and use one of the ideas that other people suggested, and make it easy to use like the cli array, or like the two dimensional array that you can define, assign and use in C#.
I used this not elegant but FAST,EASY and WORKING system. I do not see why can not work because the only way for the system to allow create a big size array and access parts is without cutting it in parts:
I'm using this when creating dynamic array. If you have a class or a struct. And this works. Example: