I'm using Pythons matplotlib and this is my code:
plt.title('Temperature \n Humidity')
How can I just increase the font size of temperature instead of both the temperature & the humdity?
This does NOT work:
plt.title('Temperature \n Humidity', fontsize=100)
fontsize can be assigned inside dictionary fontdict which provides additional parameters fontweight, verticalalignment , horizontalalignment
The below snippet should work
plt.title('Temperature \n Humidity', fontdict = {'fontsize' : 100})
import matplotlib.pyplot as plt
plt.figtext(.5,.9,'Temperature', fontsize=100, ha='center')
plt.figtext(.5,.8,'Humidity',fontsize=30,ha='center')
plt.show()
Probably you want this. You can easily tweak the fontsize of both and adjust there placing by changing the first two figtext positional parameters.
ha is for horizontal alignment
Alternatively,
import matplotlib.pyplot as plt
fig = plt.figure() # Creates a new figure
fig.suptitle('Temperature', fontsize=50) # Add the text/suptitle to figure
ax = fig.add_subplot(111) # add a subplot to the new figure, 111 means "1x1 grid, first subplot"
fig.subplots_adjust(top=0.80) # adjust the placing of subplot, adjust top, bottom, left and right spacing
ax.set_title('Humidity',fontsize= 30) # title of plot
ax.set_xlabel('xlabel',fontsize = 20) #xlabel
ax.set_ylabel('ylabel', fontsize = 20)#ylabel
x = [0,1,2,5,6,7,4,4,7,8]
y = [2,4,6,4,6,7,5,4,5,7]
ax.plot(x,y,'-o') #plotting the data with marker '-o'
ax.axis([0, 10, 0, 10]) #specifying plot axes lengths
plt.show()
Output of alternative code:
PS: if this code give error like ImportError: libtk8.6.so: cannot open shared object file esp. in Arch like systems. In that case, install tk using sudo pacman -S tk or Follow this link
This has been mostly working for me across recent versions of Matplotlib (currently 2.0.2). It is helpful for generating presentation graphics:
def plt_resize_text(labelsize, titlesize):
ax = plt.subplot()
for ticklabel in (ax.get_xticklabels()):
ticklabel.set_fontsize(labelsize)
for ticklabel in (ax.get_yticklabels()):
ticklabel.set_fontsize(labelsize)
ax.xaxis.get_label().set_fontsize(labelsize)
ax.yaxis.get_label().set_fontsize(labelsize)
ax.title.set_fontsize(titlesize)
The odd for-loop construction seems to be necessary to adjust the size of each tic label.
Also, the above function should be called just before the call to plt.show(block=True), otherwise for whatever reason the title size occasionally remains unchanged.
Assuming you are using matplotlib to render some plots.
You might want to checkout Text rendering With LaTeX — Matplotlib
Here are some lines of code for your case
plt.rc('text', usetex=True)
plt.title(r"\begin{center} {\Large Temperature} \par {\large Humidity} \end{center}")
Hope that helps.
Simply do the following:
ax.set_title('This is the title',fontsize=20)
I don't want to go into this chart exactly
Universal method:
step one - make a distance between the main title and the chart:
from matplotlib import rcParams
rcParams['axes.titlepad'] = 20
then insert subtitle by setting coordinates:
ax.text(0.3, -0.56, 'subtitle',fontsize=12)
Related
I'm struggling to deal with my plot margins in matplotlib. I've used the code below to produce my chart:
plt.imshow(g)
c = plt.colorbar()
c.set_label("Number of Slabs")
plt.savefig("OutputToUse.png")
However, I get an output figure with lots of white space on either side of the plot. I've searched google and read the matplotlib documentation, but I can't seem to find how to reduce this.
One way to automatically do this is the bbox_inches='tight' kwarg to plt.savefig.
E.g.
import matplotlib.pyplot as plt
import numpy as np
data = np.arange(3000).reshape((100,30))
plt.imshow(data)
plt.savefig('test.png', bbox_inches='tight')
Another way is to use fig.tight_layout()
import matplotlib.pyplot as plt
import numpy as np
xs = np.linspace(0, 1, 20); ys = np.sin(xs)
fig = plt.figure()
axes = fig.add_subplot(1,1,1)
axes.plot(xs, ys)
# This should be called after all axes have been added
fig.tight_layout()
fig.savefig('test.png')
You can adjust the spacing around matplotlib figures using the subplots_adjust() function:
import matplotlib.pyplot as plt
plt.plot(whatever)
plt.subplots_adjust(left=0.1, right=0.9, top=0.9, bottom=0.1)
This will work for both the figure on screen and saved to a file, and it is the right function to call even if you don't have multiple plots on the one figure.
The numbers are fractions of the figure dimensions, and will need to be adjusted to allow for the figure labels.
All you need is
plt.tight_layout()
before your output.
In addition to cutting down the margins, this also tightly groups the space between any subplots:
x = [1,2,3]
y = [1,4,9]
import matplotlib.pyplot as plt
fig = plt.figure()
subplot1 = fig.add_subplot(121)
subplot1.plot(x,y)
subplot2 = fig.add_subplot(122)
subplot2.plot(y,x)
fig.tight_layout()
plt.show()
Sometimes, the plt.tight_layout() doesn't give me the best view or the view I want. Then why don't plot with arbitrary margin first and do fixing the margin after plot?
Since we got nice WYSIWYG from there.
import matplotlib.pyplot as plt
fig,ax = plt.subplots(figsize=(8,8))
plt.plot([2,5,7,8,5,3,5,7,])
plt.show()
Then paste settings into margin function to make it permanent:
fig,ax = plt.subplots(figsize=(8,8))
plt.plot([2,5,7,8,5,3,5,7,])
fig.subplots_adjust(
top=0.981,
bottom=0.049,
left=0.042,
right=0.981,
hspace=0.2,
wspace=0.2
)
plt.show()
In case anybody wonders how how to get rid of the rest of the white margin after applying plt.tight_layout() or fig.tight_layout(): With the parameter pad (which is 1.08 by default), you're able to make it even tighter:
"Padding between the figure edge and the edges of subplots, as a fraction of the font size."
So for example
plt.tight_layout(pad=0.05)
will reduce it to a very small margin. Putting 0 doesn't work for me, as it makes the box of the subplot be cut off a little, too.
Just use ax = fig.add_axes([left, bottom, width, height])
if you want exact control of the figure layout. eg.
left = 0.05
bottom = 0.05
width = 0.9
height = 0.9
ax = fig.add_axes([left, bottom, width, height])
plt.savefig("circle.png", bbox_inches='tight',pad_inches=-1)
inspired by Sammys answer above:
margins = { # vvv margin in inches
"left" : 1.5 / figsize[0],
"bottom" : 0.8 / figsize[1],
"right" : 1 - 0.3 / figsize[0],
"top" : 1 - 1 / figsize[1]
}
fig.subplots_adjust(**margins)
Where figsize is the tuple that you used in fig = pyplot.figure(figsize=...)
With recent matplotlib versions you might want to try Constrained Layout:
constrained_layout automatically adjusts subplots and decorations like
legends and colorbars so that they fit in the figure window while
still preserving, as best they can, the logical layout requested by
the user.
constrained_layout is similar to tight_layout, but uses a constraint
solver to determine the size of axes that allows them to fit.
constrained_layout needs to be activated before any axes are added to
a figure.
Too bad pandas does not handle it well...
The problem with matplotlibs subplots_adjust is that the values you enter are relative to the x and y figsize of the figure. This example is for correct figuresizing for printing of a pdf:
For that, I recalculate the relative spacing to absolute values like this:
pyplot.subplots_adjust(left = (5/25.4)/figure.xsize, bottom = (4/25.4)/figure.ysize, right = 1 - (1/25.4)/figure.xsize, top = 1 - (3/25.4)/figure.ysize)
for a figure of 'figure.xsize' inches in x-dimension and 'figure.ysize' inches in y-dimension. So the whole figure has a left margin of 5 mm, bottom margin of 4 mm, right of 1 mm and top of 3 mm within the labels are placed. The conversion of (x/25.4) is done because I needed to convert mm to inches.
Note that the pure chart size of x will be "figure.xsize - left margin - right margin" and the pure chart size of y will be "figure.ysize - bottom margin - top margin" in inches
Other sniplets (not sure about these ones, I just wanted to provide the other parameters)
pyplot.figure(figsize = figureSize, dpi = None)
and
pyplot.savefig("outputname.eps", dpi = 100)
For me, the answers above did not work with matplotlib.__version__ = 1.4.3 on Win7. So, if we are only interested in the image itself (i.e., if we don't need annotations, axis, ticks, title, ylabel etc), then it's better to simply save the numpy array as image instead of savefig.
from pylab import *
ax = subplot(111)
ax.imshow(some_image_numpyarray)
imsave('test.tif', some_image_numpyarray)
# or, if the image came from tiff or png etc
RGBbuffer = ax.get_images()[0].get_array()
imsave('test.tif', RGBbuffer)
Also, using opencv drawing functions (cv2.line, cv2.polylines), we can do some drawings directly on the numpy array. http://docs.opencv.org/2.4/modules/core/doc/drawing_functions.html
# import pyplot
import matplotlib.pyplot as plt
# your code to plot the figure
# set tight margins
plt.margins(0.015, tight=True)
I would like to change the fontweight of part of some text I give to matplotlib's text command on a plot using matplotlib. For example, I would like the first word to be bold. Also, I would like to change the font weight and font to Times New Roman without affecting the rest of the labels, i.e. x-axis and y-axis labels.
Browsing the stack exchange, I came across the rc('text', usetex=True) command. When I use this, these changes affect the entire plot (i.e., the x-axis and y-axis labels as well). I would just like to format the text given to matplotlib's text command. Is there a way to do this?
Here's an example:
import numpy as np
import matplotlib.pyplot as plt
randomNumber = []
for index in range(0, 1000):
np.random.seed()
randomNumber.append(np.random.normal(0, 1, 1)[0])
plt.figure()
ax = plt.gca()
ax.hist(randomNumber, 12)
#plt.figure()
#plt.plot()
plt.rc('text', usetex=True)
ax.text(-2, 150, '\\textbf{test} testing', fontsize=16, fontname='Times New Roman')
Suppose we have a figure with three plots in it for three different parameters. But for the all three plots We have same temperature T=4K . Then how can I add this information in the figure?
I am not interested to write it in the Caption. I want it on the figure itself.
figtext would work well.
The advantage of figtext over text and annotate is that figtext defaults to using the figure coordinates, whereas the others default to using the coordinates of the axes (and therefore "T=4K" would move around if your axes are different between the different plots).
import matplotlib.pyplot as plt
plt.figure()
plt.xlim(-10, 10)
plt.ylim(0, .01)
plt.figtext(.8, .8, "T = 4K")
plt.show()
Here's a demonstration of using annotate. Check out this example for different styles of annotation.
import matplotlib.pyplot as plt
import numpy as np
plt.ion()
fig, ax = plt.subplots()
x = np.linspace(0,4,100)
plt.plot(x,2*x)
plt.plot(x,x**2)
plt.plot(x,np.sqrt(8*x))
ax.annotate('T = 4K', xy=(2,4), xycoords='data',
xytext=(-100,60), textcoords='offset points',
arrowprops=dict(arrowstyle='fancy',fc='0.6',
connectionstyle="angle3,angleA=0,angleB=-90"))
plt.show()
raw_input()
figtext can make annotations at the bootom of multiple subplots figure like a comment independent of figures so you can make additional comments or remarks all in one picture. I was looking for this too. Thank you guys! :-)
import matplotlib.pyplot as plt
plt.figure(1)
plt.suptitle("SOME TITLE HERE")
#FIRST SUBPLOT
plt.subplot(311)
plt.ylabel(r"$a [m/s^2]$") # YOU CAN USE LaTeX TYPESETTING IN PYPLOT STRINGS!
plt.xlabel("time [s]")
plt.grid(True)
plt.plot(some_data)
# SECOND SUBPLOT
plt.subplot(312)
...
# THIRD SUBPLOT
plt.subplot(313)
...
# BOTTOM LABEL
plt.figtext(0.5, 0, "SOME LABEL BELOW ALL SUBPLOTS", ha="center", fontsize=7, bbox={"facecolor":"orange", "alpha":0.5, "pad":5})
# DRAW THE PLOT
plt.show()
Notre ha=center will center the string if x=0.5. You can also use fontsize and bbox parameters to change appearance of the string and its area.
Well, I'm not sure what you mean, but you can add text to the plot with the text() method.
Plot text in matplotlib pyplot
I suggest a grey horizontal zone around the T=4K zone
If you look at axhspan(ymin, ymax, xmin=0, xmax=1, **kwargs) in the matplotlib documentation for axes, you can make things like that:
In a matplotlib figure, how can I make the font size for the tick labels using ax1.set_xticklabels() smaller?
Further, how can one rotate it from horizontal to vertical?
There is a simpler way actually. I just found:
import matplotlib.pyplot as plt
# We prepare the plot
fig, ax = plt.subplots()
# We change the fontsize of minor ticks label
ax.tick_params(axis='both', which='major', labelsize=10)
ax.tick_params(axis='both', which='minor', labelsize=8)
This only answers to the size of label part of your question though.
To specify both font size and rotation at the same time, try this:
plt.xticks(fontsize=14, rotation=90)
Please note that newer versions of MPL have a shortcut for this task. An example is shown in the other answer to this question: https://stackoverflow.com/a/11386056/42346
The code below is for illustrative purposes and may not necessarily be optimized.
import matplotlib.pyplot as plt
import numpy as np
def xticklabels_example():
fig = plt.figure()
x = np.arange(20)
y1 = np.cos(x)
y2 = (x**2)
y3 = (x**3)
yn = (y1,y2,y3)
COLORS = ('b','g','k')
for i,y in enumerate(yn):
ax = fig.add_subplot(len(yn),1,i+1)
ax.plot(x, y, ls='solid', color=COLORS[i])
if i != len(yn) - 1:
# all but last
ax.set_xticklabels( () )
else:
for tick in ax.xaxis.get_major_ticks():
tick.label.set_fontsize(14)
# specify integer or one of preset strings, e.g.
#tick.label.set_fontsize('x-small')
tick.label.set_rotation('vertical')
fig.suptitle('Matplotlib xticklabels Example')
plt.show()
if __name__ == '__main__':
xticklabels_example()
Alternatively, you can just do:
import matplotlib as mpl
label_size = 8
mpl.rcParams['xtick.labelsize'] = label_size
Another alternative
I have two plots side by side and would like to adjust tick labels separately.
The above solutions were close however they were not working out for me. I found my solution from this matplotlib page.
ax.xaxis.set_tick_params(labelsize=20)
This did the trick and was straight to the point. For my use case, it was the plot on the right that needed to be adjusted. For the plot on the left since I was creating new tick labels I was able to adjust the font in the same process as seting the labels.
ie
ax1.set_xticklabels(ax1_x, fontsize=15)
ax1.set_yticklabels(ax1_y, fontsize=15)
thus I used for the right plot,
ax2.xaxis.set_tick_params(labelsize=24)
ax2.yaxis.set_tick_params(labelsize=24)
A minor subtlety... I know... but I hope this helps someone :)
Bonus points if anyone knows how to adjust the font size of the order of magnitude label.
plt.tick_params(axis='both', which='minor', labelsize=12)
In current versions of Matplotlib, you can do axis.set_xticklabels(labels, fontsize='small').
The following worked for me:
ax2.xaxis.set_tick_params(labelsize=7)
ax2.yaxis.set_tick_params(labelsize=7)
The advantage of the above is you do not need to provide the array of labels and works with any data on the axes.
For smaller font, I use
ax1.set_xticklabels(xticklabels, fontsize=7)
and it works!
You can also change label display parameters like fontsize with a line like this:
zed = [tick.label.set_fontsize(14) for tick in ax.yaxis.get_major_ticks()]
I'm struggling to deal with my plot margins in matplotlib. I've used the code below to produce my chart:
plt.imshow(g)
c = plt.colorbar()
c.set_label("Number of Slabs")
plt.savefig("OutputToUse.png")
However, I get an output figure with lots of white space on either side of the plot. I've searched google and read the matplotlib documentation, but I can't seem to find how to reduce this.
One way to automatically do this is the bbox_inches='tight' kwarg to plt.savefig.
E.g.
import matplotlib.pyplot as plt
import numpy as np
data = np.arange(3000).reshape((100,30))
plt.imshow(data)
plt.savefig('test.png', bbox_inches='tight')
Another way is to use fig.tight_layout()
import matplotlib.pyplot as plt
import numpy as np
xs = np.linspace(0, 1, 20); ys = np.sin(xs)
fig = plt.figure()
axes = fig.add_subplot(1,1,1)
axes.plot(xs, ys)
# This should be called after all axes have been added
fig.tight_layout()
fig.savefig('test.png')
You can adjust the spacing around matplotlib figures using the subplots_adjust() function:
import matplotlib.pyplot as plt
plt.plot(whatever)
plt.subplots_adjust(left=0.1, right=0.9, top=0.9, bottom=0.1)
This will work for both the figure on screen and saved to a file, and it is the right function to call even if you don't have multiple plots on the one figure.
The numbers are fractions of the figure dimensions, and will need to be adjusted to allow for the figure labels.
All you need is
plt.tight_layout()
before your output.
In addition to cutting down the margins, this also tightly groups the space between any subplots:
x = [1,2,3]
y = [1,4,9]
import matplotlib.pyplot as plt
fig = plt.figure()
subplot1 = fig.add_subplot(121)
subplot1.plot(x,y)
subplot2 = fig.add_subplot(122)
subplot2.plot(y,x)
fig.tight_layout()
plt.show()
Sometimes, the plt.tight_layout() doesn't give me the best view or the view I want. Then why don't plot with arbitrary margin first and do fixing the margin after plot?
Since we got nice WYSIWYG from there.
import matplotlib.pyplot as plt
fig,ax = plt.subplots(figsize=(8,8))
plt.plot([2,5,7,8,5,3,5,7,])
plt.show()
Then paste settings into margin function to make it permanent:
fig,ax = plt.subplots(figsize=(8,8))
plt.plot([2,5,7,8,5,3,5,7,])
fig.subplots_adjust(
top=0.981,
bottom=0.049,
left=0.042,
right=0.981,
hspace=0.2,
wspace=0.2
)
plt.show()
In case anybody wonders how how to get rid of the rest of the white margin after applying plt.tight_layout() or fig.tight_layout(): With the parameter pad (which is 1.08 by default), you're able to make it even tighter:
"Padding between the figure edge and the edges of subplots, as a fraction of the font size."
So for example
plt.tight_layout(pad=0.05)
will reduce it to a very small margin. Putting 0 doesn't work for me, as it makes the box of the subplot be cut off a little, too.
Just use ax = fig.add_axes([left, bottom, width, height])
if you want exact control of the figure layout. eg.
left = 0.05
bottom = 0.05
width = 0.9
height = 0.9
ax = fig.add_axes([left, bottom, width, height])
plt.savefig("circle.png", bbox_inches='tight',pad_inches=-1)
inspired by Sammys answer above:
margins = { # vvv margin in inches
"left" : 1.5 / figsize[0],
"bottom" : 0.8 / figsize[1],
"right" : 1 - 0.3 / figsize[0],
"top" : 1 - 1 / figsize[1]
}
fig.subplots_adjust(**margins)
Where figsize is the tuple that you used in fig = pyplot.figure(figsize=...)
With recent matplotlib versions you might want to try Constrained Layout:
constrained_layout automatically adjusts subplots and decorations like
legends and colorbars so that they fit in the figure window while
still preserving, as best they can, the logical layout requested by
the user.
constrained_layout is similar to tight_layout, but uses a constraint
solver to determine the size of axes that allows them to fit.
constrained_layout needs to be activated before any axes are added to
a figure.
Too bad pandas does not handle it well...
The problem with matplotlibs subplots_adjust is that the values you enter are relative to the x and y figsize of the figure. This example is for correct figuresizing for printing of a pdf:
For that, I recalculate the relative spacing to absolute values like this:
pyplot.subplots_adjust(left = (5/25.4)/figure.xsize, bottom = (4/25.4)/figure.ysize, right = 1 - (1/25.4)/figure.xsize, top = 1 - (3/25.4)/figure.ysize)
for a figure of 'figure.xsize' inches in x-dimension and 'figure.ysize' inches in y-dimension. So the whole figure has a left margin of 5 mm, bottom margin of 4 mm, right of 1 mm and top of 3 mm within the labels are placed. The conversion of (x/25.4) is done because I needed to convert mm to inches.
Note that the pure chart size of x will be "figure.xsize - left margin - right margin" and the pure chart size of y will be "figure.ysize - bottom margin - top margin" in inches
Other sniplets (not sure about these ones, I just wanted to provide the other parameters)
pyplot.figure(figsize = figureSize, dpi = None)
and
pyplot.savefig("outputname.eps", dpi = 100)
For me, the answers above did not work with matplotlib.__version__ = 1.4.3 on Win7. So, if we are only interested in the image itself (i.e., if we don't need annotations, axis, ticks, title, ylabel etc), then it's better to simply save the numpy array as image instead of savefig.
from pylab import *
ax = subplot(111)
ax.imshow(some_image_numpyarray)
imsave('test.tif', some_image_numpyarray)
# or, if the image came from tiff or png etc
RGBbuffer = ax.get_images()[0].get_array()
imsave('test.tif', RGBbuffer)
Also, using opencv drawing functions (cv2.line, cv2.polylines), we can do some drawings directly on the numpy array. http://docs.opencv.org/2.4/modules/core/doc/drawing_functions.html
# import pyplot
import matplotlib.pyplot as plt
# your code to plot the figure
# set tight margins
plt.margins(0.015, tight=True)