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I'm wondering if I could "scale" a image input to be plotted to a range in the plot. To be more clear, this is what I need:

I have a 400 * 400 image that is generated based on a function which interval is -1..1. So, I do a translate to save this data, like this:

x = Utils.translate(pos_x, 0, self.width, -1, 1)
y = Utils.translate(pos_y, 0, self.height, -1, 1)
data = Utils.map_position_to_function(x, y)

I.e, first I map its position to my range and then I calculate de f(x, y) based on this "new position" and save the data.

The problem is that, later, I have to represent the image contour in the function range. So, I have an image, 400 * 400, that I have to represent in a plot which range is -1..1.

This works pretty well:

import pylab as plt

im = plt.array(Image.open('Mean.png').convert('L'))
plt.contour(im, origin='image')

But I couldn't find a way to have the x/y axes in the range -1..1

I tried this:

row = np.linspace(-1,1,0.25)
X,Y = np.meshgrid(row,row)
Z = plt.array(Image.open('Mean.png').convert('L'))

But it doesn't works, and it makes senses to not work, but I don't know how could I do what I want. I have the information about the data in this image, so I also tried to do something like these two approaches:

# 1
row = np.linspace(-1,1,0.25)
X,Y = np.meshgrid(row,row)
Z = ImageMedia[Utils.translate(X, 400, 400, -1, 1), Utils.translate(Y, 400, 400, -1, 1)]

# 2
im = plt.array(Image.open('Mean.png').convert('L'))
plt.contour(im, origin='image')
v = [-1, 1, -1, 1]

Which don't work either.

Any help would be much appreciated. Thanks.

share|improve this question
you are using linspace wrong, it is linspace(min, max, number_of_steps) –  tcaswell Sep 13 '13 at 19:05
Thank you. I didn't knew it. (: –  pceccon Sep 13 '13 at 23:58

2 Answers 2

up vote 0 down vote accepted

You can do this simpily using the extent kwarg:

im = ax.imshow(data, ..., extent=[-1, 1, -1, 1])

(doc) It will also work with contour, contourf ect.

for example:

fig, ax2 = plt.subplots(1, 1)

im = rand(400, 400)
ax2.imshow(im, interpolation='none', extent=[-1, 1, -1, 1])

enter image description here

An alternate way to deal with this is, if you really don't want to use extent and make your life easier is to hi-jack the formatter to insert a scaling factor:

from matplotlib.ticker import FuncFormatter

fig, ax2 = plt.subplots(1, 1)

im = rand(400, 400)
ax2.imshow(im, interpolation='none', origin='bottom')

nbins = 5
scale_factor = .5
form_fun = lambda x, i, scale_factor=scale_factor: '{:.3f}'.format(scale_factor * x)

enter image description here

share|improve this answer
Yeah, I guess I'm too noob, I coudn't figure out how to fit this in my code. I also edited my question with a last doubt in the end. Could you read it? (: Thanks a lot! –  pceccon Sep 13 '13 at 19:04
If you have additional questions, please open a new question. –  tcaswell Sep 13 '13 at 19:08
Now I got what did you mean! Thanks! –  pceccon Sep 13 '13 at 19:19
Hi, @tcaswell. Sorry to come back here, but I made another similar question (stackoverflow.com/questions/18817110/…), and, as is similar, I though you could know the answer... Thanks. –  pceccon Sep 15 '13 at 22:33

I actually wrote a code to do something similar myself because it has implications for a lot of science apps. I happened to be tweaking that code while checking stackoverflow for something else, so it's your lucky day.... below is a function that plots an image with appropriate tick marks on the axes.

def plotmap(mapx, mapy, mymap,flipx=False, nt=4):
   '''plots a map (mymap) with specified axes (mapx, mapy) and number of ticks (nt)'''

   mymap=mymap[:,::-1] #flip y axis (make start from lower left, rather than upper)
   if(flipx): #flip x-axis (useful in some applications (e.g. west longitude))

   pl.imshow(mymap.transpose()) #plot an image map.. but contour could work too
   myxticks=pl.arange(mapx[0],mapx[-1], (mapx[-1]-mapx[0])/nt) #picks appropriate tick marks
   myyticks=pl.arange(mapy[-1],mapy[0], -(mapy[-1]-mapy[0])/nt)
   for i in range(nt):
     myxticks[i]=round(myxticks[i],3) #makes the ticks pretty by lopping off insignificant figures
   pl.xticks(range(0, nx, nx/nt), myxticks) #plots ticks at corresponding coordinates
   pl.yticks(range(0, ny, ny/nt), myyticks)

This would plot an image, it would be fairly trivial for you then to use contour(im) after running this function to overlay contours on to a properly axisified map, although you have to be careful about the axis to make sure they're flipped in the ways that you want them....

share|improve this answer
gah, you are re-inventing the wheel(s)! –  tcaswell Sep 13 '13 at 18:47
see origin kwarg for flipping the image. And you really should be using Formatter and Locator classes for setting the tick locations. The do all of this work for you. –  tcaswell Sep 13 '13 at 18:51
it's part of a larger code that does many more things, but thank you for your answer to the question and the comments. I was not aware of those parameters.... and the extent will help (origin less so, still need to transpose to get image to work like I want). –  Paul R Sep 13 '13 at 19:02
also, your method produces a different result where the image becomes extent x extent instead of index by index, which may or may not be what people were intending. –  Paul R Sep 13 '13 at 19:11
I don't under stand what you mean by index x index. There are some subtlies with where the center of pixels are, but that can be fixed with proper +/- delta on your limits (the extents are the location of the edges not the centers) –  tcaswell Sep 13 '13 at 19:13

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