# Reshape data into 'closest square'

I'm fairly new to python. Currently using matplotlib I have a script that returns a variable number of subplots to make, that I pass to another script to do the plotting. I want to arrange these subplots into a nice arrangement, i.e., 'the closest thing to a square.' So the answer is unique, let's say I weight number of columns higher

Examples: Let's say I have 6 plots to make, the grid I would need is 2x3. If I have 9, it's 3x3. If I have 12, it's 3x4. If I have 17, it's 4x5 but only one in the last row is created.

Attempt at a solution: I can easily find the closest square that's large enough:

``````    num_plots = 6
square_size = ceil(sqrt(num_plots))**2
``````

But this will leave empty plots. Is there a way to make the correct grid size?

This what I have done in the past

``````num_plots = 6
nr = int(num_plots**0.5)
nc = num_plots/nr
if nr*nc < num_plots:
nr+=1
fig,axs = pyplot.subplots(nr,nc,sharex=True,sharey=True)
``````
• This is almost correct - except if we have an odd number, there will be empty plots at the end of the grid. Any way to prevent those? – user6605695 Jul 18 '16 at 23:07
• Empty grid spots can be useful for adding legends; as well @EL_DON is right that prime numbers of plots will never divide up equally into more than one row or column. – esmit Jul 19 '16 at 5:14

If you have a prime number of plots like 5 or 7, there's no way to do it unless you go one row or one column. If there are 9 or 15 plots, it should work.

The example below shows how to

• Blank the extra empty plots
• Force the axis pointer to be a 2D array so you can index it generally even if there's only one plot or one row of plots
• Find the correct row and column for each plot as you loop through

Here it is:

``````nplots=13
#find number of columns, rows, and empty plots
nc=int(nplots**0.5)
nr=int(ceil(nplots/float(nc)))
empty=nr*nc-nplots
#make the plot grid
f,ax=pyplot.subplots(nr,nc,sharex=True)

#force ax to have two axes so we can index it properly
if nplots==1:
ax=array([ax])
if nc==1:
ax=ax.reshape(nr,1)
if nr==1:
ax=ax.reshape(1,nc)

#hide the unused subplots
for i in range(empty): ax[-(1+i),-1].axis('off')

#loop through subplots and make output
for i in range(nplots):
ic=i/nr #find which row we're on. If the definitions of ir and ic are switched, the indecies for empty (above) should be switched, too.
ir=mod(i,nr) #find which column we're on
axx=ax[ir,ic] #get a pointer to the subplot we're working with
axx.set_title(i)
`````` • If we have a prime, like 7 for example, we would hope the output be 2x4, and not include the the last entry on the second row – user6605695 Jul 18 '16 at 23:26
• @user6605695 You can have 2x4 with one empty or you can have 1x7. The alternative would be to have 2x3 + one double sized plot, but the logic for that would be longer. – EL_DON Jul 18 '16 at 23:32
• Do you just want to have an empty space instead of unused axes? `f,ax=plt.subplots(4,2) ax[-1,-1].axis('off')` – EL_DON Jul 19 '16 at 22:43
• empty space is the right idea - now just need a way to be able to set more than just the last one as 'off'. like `ax[all not used, all not used].axis('off')` – user6605695 Jul 20 '16 at 2:44