I have some netCDF files, 24 for each of the directions (`x`

, `y`

, `z`

) and 24 with values for different times. At the final point I have to plot the data for all time steps.

For the plotting I need to interpolate at specific point so I have to knew the nearest neighbor. My plan is to divide the data in to 3D cells so I don't have to search the nearest neighbor in the whole dataset.

So in my first step I read in my data files and create an array witch contains `[x,y,z,v[:]]`

the coordinates of each point and the value for each time.

After that I calculate for each point the cell it belongs to and append it to a Array of 4 dimensions: `x`

, `y`

, `z`

and `v`

:

```
for vec in vecs:
x_ind = int((vec[0]-xmin) / stepWidthX)
y_ind = int((vec[1]-ymin) / stepWidthY)
z_ind = int((vec[2]-zmin) / stepWidthZ)
if x_ind==gridPointsInXdirection:
x_ind = x_ind-1
if y_ind==gridPointsInYdirection:
y_ind = y_ind-1
if z_ind==gridPointsInZdirection:
z_ind = z_ind-1
#print z_ind, y_ind,x_ind
XGridPoints[z_ind, y_ind, x_ind] = np.append(XGridPoints[z_ind, y_ind, x_ind], vec[0])
YGridPoints[z_ind, y_ind, x_ind] = np.append(YGridPoints[z_ind, y_ind, x_ind], vec[1])
ZGridPoints[z_ind, y_ind, x_ind] = np.append(ZGridPoints[z_ind, y_ind, x_ind], vec[2])
VGridPoints[z_ind, y_ind, x_ind] = np.append(VGridPoints[z_ind, y_ind, x_ind], vec[3])
```

Where `vecs`

is the array with all data points. So far it's working but my problem now is in `VGridPoints`

: I have a long list of values and not a list of arrays. Is there a solution to append an array to an array element so that I can access it later something like:

```
x = XGridPoints[2,3,4][2]
y = YGridPoints[2,3,4][2]
z = ZGridPoints[2,3,4][2]
v[:] = VGridPoints[2,3,4][2]
```

When I take only one time step it's working but I have a large overdrive if I recalculate the cells and the nearest neighbour for each time step and they do not change the location over time.

everything. – seberg Aug 27 '12 at 15:42