# How to speed up memory allocation for 2D triangular matrix in c++?

I need to allocate memory for a very large array which represents triangular matrix. I wrote the following code:

``````const int max_number_of_particles=20000;
float **dis_vec;

dis_vec = new float **[max_number_of_particles];

for (i = 0; i<max_number_of_particles; i++)
dis_vec[i] = new float *[i];

for (i = 0; i<max_number_of_particles; i++)
for (j = 0; j<i; j++)
dis_vec[i][j] = new float[2];
``````

The problem is that the time needed to do it (to allocate the memory) quickly increases with the increasing size of matrix. Does anyone know better solution for this problem?

Thanks.

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Are you sure you need all elements allocated? You could initialize them when you first use them; that usage might take more time than the allocation anyway. – Benjamin Bannier Nov 23 '10 at 14:33
isn't `dis_vec[i][j]` a `float`, rather than a `float *`? and shouldn't the assignment in the first loop be `dis_vec[i] = new float *[i+1]`? – lijie Nov 23 '10 at 14:37

Allocate a one dimensional array and convert indices to subscripts and vice versa. One allocation compared to `O(N)` allocations should be much faster.

EDIT

Specifically, just allocate `N(N+1)/2` elements, and when you want to access `[r][c]` in the original, just access `[r*(r+1)/2 + c]` instead.

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And you could move the subscript code into a function for readability/maintainability. – Cameron Nov 23 '10 at 14:47
yes along with `assert(c<=r);` optionally. – lijie Nov 23 '10 at 15:43

Yes.

"new float[2]"

That allocates an array, which I imagine is slower to allocate than a fixed size object that happens to have 2 floats.

struct Float2D { float a; float b; };

x = new Float2D;

that seems better.

But really, forget all that. If you want it fast... just malloc a bunch of floats.

I'd say... let some floats go to waste. Just alloc a plain old 2D array.

float* f = (float*)malloc( max_number_of_particles*max_number_of_particles*2*sizeof(float) );

The only size saving you could get over this, is a 2x size saving by using a triangle instead of a square.

However, I'm pretty damn sure you KILLED that entire "size saving" already, by using "new float[2]", and "new float *[i];". I'm not sure how much the overhead of "new" is, but I imagine it's like malloc except worse. And I think most mallocs have about 8 bytes overhead per allocation.

So what you have already is WORSE than a 2X size lost by allocating a square.

Also, it makes the math simpler. You'd need to do some wierd "Triangular number" math to get the pointer. Something like (n+1)*n/2 or whatever it is :)

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