# Plotting two different sized grids. Smaller grid centred on the centre of the bigger

I am trying to get something like this (image the image is fully populated with the red squares (I only drew a few)): ![enter image description here][1]. Expanding on what I want: I want the RED squares to be centred int the YELLOW squares as shown in the picture (but with RED squares in ALL the YELLOW squares).

What is happening there is the bigger windows (yellow grid) are overlapped between each other by half their size, where the smaller windows in this case, half the size of the big window, (red square) are centred on the centre of the big window. The furthest I could get was using this Multiple grids on matplotlib I am basically using their code, but to make things absolutely clear, I include the code:

EDIT: Thanks to Rutgers I got what I wanted. Here is a slightly edited and shortened version. This code gives the first centre of the four yellow grid intersection where I want.

``````import matplotlib.pyplot as plt
from matplotlib.pyplot import subplot
import numpy as np
import matplotlib.cm as cmps
import matplotlib.collections as collections

i = 1
initial_frame = 1

ax = subplot(111)

bg = imread("./png/frame_" + str("%05d" % (i + initial_frame) ) + ".png").astype(np.float64)

# define the normal (yellow) grid
ytcks = np.arange(16,bg.shape[0],32)
xtcks = np.arange(16,bg.shape[1],32)

# plot the sample data
ax.imshow(bg, cmap=plt.cm.Greys_r, interpolation='none')

ax.set_xticks(xtcks)
ax.set_xticks(xtcks+16, minor=True)

ax.set_yticks(ytcks)
ax.set_yticks(ytcks+16, minor=True)

ax.xaxis.grid(True,'minor', linestyle='--', lw=1., color='y')
ax.yaxis.grid(True,'minor', linestyle='--', lw=1., color='y')

ax.xaxis.grid(True,'major', linestyle='--', lw=0.5, color='g')
ax.yaxis.grid(True,'major', linestyle='--', lw=0.5, color='g')

plt.show()
``````
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What code have you used to make the image? If you dont want to use the standard grid options perhaps a polygoncollection would work. Its a bit more work but very flexible. – Rutger Kassies Aug 6 '13 at 13:49
To me it is not clear what you want to achieve. You should write clearer, so it is easier to understand what you mean. Also, you should include the code you have so far, even if it is not giving you the desired output. Right now you are asking others to do all the work for you (as you haven't included any code) - you are much more likely to get good answers if you show that you have put some effort into trying to solve the problem yourself. – hooy Aug 6 '13 at 13:54
@nordev. Sorry, I always assume it is clear enough, and since I linked what I am using I did not want to spam the question with code. I tried to be as explicit with what I want as possible (it is really simple, just centre the smaller squares in the middle of the big squares). Is that a clearer question now :) ? Not really sure how to make it better... – Vitto Aug 6 '13 at 14:20
@Rutger Kassies. Do you mean this stackoverflow.com/questions/15968762/… ? – Vitto Aug 6 '13 at 14:23

Given the sample data `z` from my other answer:

``````# define the normal (yellow) grid
tcks = np.arange(0,90,10)

fig, ax = plt.subplots(figsize=(8,8))

# plot the sample data
ax.imshow(z, cmap=plt.cm.Greys_r, interpolation='none', vmin=0.4, vmax=1.5, extent=[0,z.shape[0],0,z.shape[1]])

ax.set_xticks(tcks)
ax.set_xticks(tcks+5, minor=True)

ax.set_yticks(tcks)
ax.set_yticks(tcks+5, minor=True)

ax.xaxis.grid(True,'minor', linestyle='--', lw=1., color='y')
ax.yaxis.grid(True,'minor', linestyle='--', lw=1., color='y')

ax.xaxis.grid(True,'major', linestyle='-', lw=1., color='r')
ax.yaxis.grid(True,'major', linestyle='-', lw=1., color='r')

ax.set_xlim(0,80)
ax.set_ylim(0,80)
``````

I expect this to be much faster than drawing with polygons.

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Yep, this will do the trick (even though I do not need the red lines in the first (in your image) 10 px of the image (but I am not asking this as you have helped a lot already!). Thank you Rutger ! – Vitto Aug 6 '13 at 15:10
Glad it works for you. The edges can be removed by slicing the tcks variable when setting the minor ticks: 'ax.set_yticks(tcks[1:-1]+5, minor=True)' – Rutger Kassies Aug 6 '13 at 16:04

Mentioning bigger and smaller grid is a little bit confusing, since to me they seem of equal size, but i assume you mean the 'major' and 'minor' grid.

Well, to sort of mimic your picture with what i had in mind, see if this makes any sense:

``````import matplotlib.collections as collections
import numpy as np
import matplotlib.pyplot as plt

# generate some fake data, after:
# http://matplotlib.org/examples/images_contours_and_fields/pcolormesh_levels.html
dx, dy = 0.05, 0.05
y, x = np.mgrid[slice(1, 5, dy), slice(1, 5, dx)]
z = np.sin(x) ** 10 + np.cos(10 + y * x) * np.cos(x)

# define the normal (yellow) grid
tcks = np.arange(0,90,10)

fig, ax = plt.subplots(figsize=(8,8), subplot_kw={'xticks': tcks, 'yticks': tcks})

# plot the sample data
ax.imshow(z, cmap=plt.cm.Greys_r, interpolation='none', vmin=0.4, vmax=1.5, extent=[0,z.shape[0],0,z.shape[1]])

# plot the yellow grid
ax.grid(True, linestyle='--', color='y', lw=1.5, alpha=1.0)

# define some random 'red' grid cells
custom_grid = []

for i in range(10):
x = np.random.randint(0,7) * 10 + 5
y = np.random.randint(0,7) * 10 + 5

polygon = plt.Rectangle((x, y), 10, 10)
custom_grid.append(polygon)

p = collections.PatchCollection(custom_grid, facecolor='none', edgecolor='r', lw=1.5)
Let the confusion continu :). I figured you wanted some 'red' grid cells plotted since you mentioned 'but I get all the unnecessary grids'. I think i see what you mean now, the `Ticklocators` dont allow an offset, so you should simply set the ticks manually, once for the major and once for the minor ticks. Thats the way to go if you do want 'all' grid cells to be plotted. I'll answer in a new respons to keep it separated. – Rutger Kassies Aug 6 '13 at 15:02