# how to plot on a smaller scale

I am using matplotlib and I'm finding some problems when trying to plot large vectors. sometimes get "MemoryError" My question is whether there is any way to reduce the scale of values ​​that i need to plot ?

In this example I'm plotting a vector with size 2647296!

is there any way to plot the same values ​​on a smaller scale?

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It is very unlikely that you have so much resolution on your display that you can see 2.6 million data points in your plot. A simple way to plot less data is to sample e.g. every 1000th point: plot(x[::1000]). If that loses too much and it is e.g. important to see the extremal values, you could write some code to split the long vector into suitably many parts and take the minimum and maximum of each part, and plot those:

tmp = x[:len(x)-len(x)%1000] # drop some points to make length a multiple of 1000
tmp = tmp.reshape((1000,-1)) # split into pieces of 1000 points
tmp = tmp.reshape((-1,1000)) # alternative: split into 1000 pieces
figure(); hold(True)         # plot minimum and maximum in the same figure
plot(tmp.min(axis=0))
plot(tmp.max(axis=0))

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scipy.signal.decimate can also be useful – matt Mar 23 '12 at 22:17

You can use a min/max for each block of data to subsample the signal.

Window size would have to be determined based on how accurately you want to display your signal and/or how large the window is compared to the signal length.

Example code:

from scipy.io import wavfile
import matplotlib.pyplot as plt

def value_for_window_min_max(data, start, stop):
min = data[start]
max = data[start]

for i in range(start,stop):
if data[i] < min:
min = data[i]
if data[i] > max:
max = data[i]

if abs(min) > abs(max):
return min
else:
return max

# This will only work properly if window_size divides evenly into len(data)
def subsample_data(data, window_size):
print len(data)
print len(data)/window_size

out_data = []

for i in range(0,(len(data)/window_size)):
out_data.append(value_for_window_min_max(data,i*window_size,i*window_size+window_size-1))

return out_data

sub_amt = 10
sub_data = subsample_data(data, sub_amt)

print len(data)
print len(sub_data)

fig = plt.figure(figsize=(8,6), dpi=100)