# Fastest way to access a 3 indices array

I have a linear array that contains volume data. The data are grey-level, i.e. integers values from 0 to 255.

``````int width  = 100;
int height = 100;
int depth  = 100;

int *texture3DVolume = new int[width*height*depth];
memset(texture3DVolume,0,sizeof(int)*width*height*depth);
``````

I'm filling some part of the array with spherical regions of constant value:

``````    int radius= 5;
int centerx =  // some value in [5-95]
int centery =  // some value in [5-95]
int centerz =  // some value in [5-95]

int czmin = centerz-radius;
int czmax = centerz+radius;

for ( int x= cxmin; x<cxmax; x++)
{
int x2 = (x-centerx)*(x-centerx);
for ( int y=cymin; y<cymax; y++)
{
int x2y2= x2+(y-centery)*(y-centery);
int slice =  textureSizeX* y + x;
for ( int z=czmin; z<czmax; z++)
{
int x2y2z2 = x2y2+(z-centerz)*(z-centerz);
if ( x2y2z2  < radius2 )
{
texture3DVolume[ txty*z+slice]=255;
}
}
}
}
``````

The problem here is that I need to access the linear array enhancing the cache locality. I think that this approach, although correct is not the fastest because in the inner loop on `z` I'd need to loop over contiguous values which in my case are not since `txty*z` jump for every iteration of `txty`.

How should I modify the loop to enhance data access locality?

-
What are `txty` and `textureSizeX` assigned to? – Uchia Itachi Aug 26 '13 at 12:27
Not quite related to your question, but if you only have values between 0 and 255, you could consider using `char` instead of `int` (or some sort of int8). – ilent2 Aug 26 '13 at 12:27
`txty=width*height` and `textureSizeX=width` it was just a name convention to make the question simpler. I've changed the loop nesting and made the x loop the innermost and the thing is 2x faster! – linello Aug 26 '13 at 14:59

you should use a `std::array`, if possible

``````array<array<array<int, 100>, 100>, 100> texture3DVolume;
``````

Then, you should write your loops in a way, that the innermost coordinate is also the innermost loop. Assuming, that you have checked, that your min and max are within the array's boundaries you get, e.g.:

``````for (size_t z=czmin; z<czmax; ++z)
{
for (size_t y=cymin; z<cymax; ++y)
{
for (size_t x=cxmin; z<cxmax; ++x)
{
texture3DVolume[z][y][x] = 255;
}
}
}
``````
-
Corollary: If you ever find yourself writing in FORTRAN, it can be useful to remember that FORTRAN orders indices in the reverse direction (x, y, z) to maximise cache hits. – ilent2 Aug 26 '13 at 12:41
My question was about indexing a linear array, not changing the definition of it. – linello Aug 26 '13 at 14:30