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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?


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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.


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


First... start with your inner loop.

"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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