I'm writing a program that creates a visual representation of temperatures. There are 200 points of data laid out in a grid and I'm using interpolation to fill in the pixels between these points.
I've written a program that puts out the data I want using inverse distance weighting (the modified Shepards method in this case), giving an image like shown below:
With all the irrelevant stuff cut out (such as the image library stuff) the code for creating this is shown below:
Firstly all of the distances and summed distances from each point to each tube are calculated (because these are invariant). In this bit I'm not particularly worried about the time taken because it is only done once, but I'm including the code so you can see how the values are stored.
#set_tubes creates an array of tubes (which is the data I'm working on) #each tube has an x position in pixels, a y position in pixels and a temperature self.set_tubes() self.dists =  for x in range(1,BASE_WIDTH-1): self.summed_dists.append() self.dists.append() for y in range(1,BASE_HEIGHT-1): self.summed_dists[x-1].append() self.dists[x-1].append() self.summed_dists[x-1][y-1]=0 for row in range(10): self.dists[x-1][y-1].append() for tube in range(20): dist = np.sqrt((x-self.tubes[row][tube].xPos)**2+(y-self.tubes[row][tube].yPos)**2)+0.1 #The -3 in the next two lines is simply a weighting factor self.dists[x-1][y-1][row].append(dist**(-3)) self.summed_dists[x-1][y-1] = self.summed_dists[x-1][y-1] + dist**(-3)
Then the interpolation is done (this is done repeatedly as the temperatures change). This is the bit where the time taken matters.
def other_proc_calc_temp(ret_queue, dists, tubes,summed_dists): heat_values = list() for x in range (BASE_WIDTH): heat_values.append() for y in range(BASE_HEIGHT): summed = 0 for row in range(10): for tube in range(20): dist = dists[x][y][row][tube] temp = tubes[row][tube].temp summed = summed + temp* dist/summed_dists[x-1][y-1] heat_values[x].append(summed)
My problem is with speed, for a 200*200 pixel image this takes approximately 30 seconds to run through the second part of the code on my computer. Is there a faster way to get the same or a similar effect, or some sort of glaring inefficiency in my code?
I have tried bi-linear and bi-cubic interpolation but wasn't particularly satisfied with the image I got out.
I have also limited the neighbourhood of data points that will effect an individual pixel in an attempt to speed it up, which did help but I think I've pushed that as far as I can without causing obvious lines in the image.
Thanks for any help you can give.