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Hi.
The short answer is yes.
orion:~ % cat A.py
from matplotlib.pyplot import *
print "A"
plot([0,1],[0,1])
draw()
orion:~ % cat B.py
from matplotlib.pyplot import *
import A
print "B"
plot([0.5,0.75],[0,1])
draw()
show()
Using ipython:
In [2]: run -i B.py
A
B
and the figure shows both plots.
M
On 6/16/14, 12:12 PM, felix_werner wrote:
> Hello,
>
> I am plotting something in a file A.py
>
> In another file (B.py), I wish to do
> import A
> and then add a curve to that same plot (and replot it).
>
> Is that possible?
>
> Thanks!
>
>
>
> --
> View this message in context: http://matplotlib.1069221.n5.nabble.com/modifying-a-plot-from-an-imported-module-tp43533.html
> Sent from the matplotlib - users mailing list archive at Nabble.com.
>
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Hi Andruska,
The Basemap.colorbar has a "size" keyword to allow you have the shrink-like
function to adjust the size of the colorbar.
Otherwise you can creat an axes on the exact position you want to hold the
colorbar, like below I have prepared an example for you:
arr = np.arange(100).reshape(10,10)
fig,ax = plt.subplots(1,1)
cs = ax.imshow(arr)
ax.set_position([0.2, 0.3, 0.6, 0.6])
axt = fig.add_axes([0.4,0.2,0.4,0.05])
cbar = plt.colorbar(cs,cax=axt,orientation='horizontal')
fig.text(0.25,0.22,'I am label',va='center',size=13)
draw()
I think it's hard to use the colorbar.set_label put the label directly on
the left of your colorbar, I rather suggest you to use fig.text to
position exactly a text for your label.
At the beginning of matplotlib you might feel confused, but after investing
a significant amount of time you feel it extremely flexible, and going to
like it :)
Cheers,
Chao
On Mon, Jun 16, 2014 at 6:32 PM, Andruska, Michael [via matplotlib] <
ml-...@n5...> wrote:
> Hi all,
>
>
>
> I am having great difficulty understanding how to change the size of my
> basemap colorbar, altering its position and moving the text label all at
> the same time. I would like to:
>
> 1. Shrink the size of the colorbar (there doesn’t seem to be a
> shrink property in the basemap.colorbar() method (only plt.colorbar() or
> fig.colorbar())
>
> 2. Move the bar so it is not centered but instead so its right edge
> is aligned vertically with the right end of the basemap.
>
> 3. Move the colorbar W/m^2 text label so it is not below the
> colorbar but is instead directly to its left.
>
>
>
> I looked up several other responses online that mentioned doing things
> such as adding a second axes, or using the shrink command from
> plt.colorbar(), and changing some other properties such as padding, but in
> the end, most of these alterations seem to introduce another problem when I
> try them. Even after viewing their documentation, I still do not fully
> understand their proper usage. Also, I tried a few properties listed in the
> matplotlib documentation such as anchor and panchor in my the
> fig.colorbar() method in attempt to move the bar around but when I tried to
> run it, the keyword was not recognized by the interpreter and produced an
> error (it seems strange that some of the keywords listed in the docs aren’t
> being recognized; and I’m pretty sure I have the most current matplotlib
> version too). You can see some of the commented commands I tried in the
> code below (not all at once, of course, but just in various conjunctions
> with one another). Here is an example of my code and an attached example of
> what the plot currently looks like after running said code. Any helpful
> advice would be greatly appreciated. So confused right now and I feel like
> I’ve read the docs over and over to little avail (P.S. Getting down to the
> nitty gritty of working with matplotlib objects and understanding its inner
> workings to customize my plots better is really confusing, even with the
> docs, (sigh)):
>
>
>
> swi = swi.reshape(1059, 1799)
>
> lat = lat.reshape(1059, 1799)
>
> lon = lon.reshape(1059, 1799)
>
>
>
> def plot_conus():
>
> m = mpl_toolkits.basemap.Basemap(
>
> llcrnrlon=-135.0,
>
> llcrnrlat=19.0,
>
> urcrnrlon=-60.0,
>
> urcrnrlat=54.0,
>
> projection='mill',
>
> resolution='c')
>
> m.drawcoastlines()
>
> m.drawcountries()
>
> m.drawstates()
>
> # draw parallels
>
> parallels = np.arange(0.,90,10.)
>
> m.drawparallels(parallels,labels=[1,0,0,0],fontsize=10)
>
> # draw meridians
>
> meridians = np.arange(180.,360.,10.)
>
> m.drawmeridians(meridians,labels=[0,0,0,1],fontsize=10)
>
> return m
>
>
>
> # find hex color values at http://www.colorpicker.com
>
> swi_colors = [
>
> #"#f800fd", # light purple
>
> #"#9854c6", # dark purple
>
> "#04e9e7",
>
> "#019ff4",
>
> "#0300f4",
>
> "#02fd02",
>
> "#01c501",
>
> "#008e00",
>
> "#fdf802",
>
> "#e5bc00",
>
> "#fd9500",
>
> "#fd0000",
>
> "#d40000",
>
> "#bc0000",
>
> "#A10505" # brick
>
> ]
>
>
>
> swi_colormap = matplotlib.colors.ListedColormap(swi_colors)
>
>
>
> m = plot_conus()
>
>
>
> levels = []
>
> for i in range(13):
>
> levels.append(i*90.0)
>
>
>
> # create black and white cross at observatory location on map
>
> site_lon = -87.99495
>
> site_lat = 41.70121
>
> x_site, y_site = m(site_lon, site_lat)
>
> m.plot(x_site, y_site, 'w+', markersize=30, markeredgewidth=8) # white
> cross
>
> m.plot(x_site, y_site, 'k+', markersize=25, markeredgewidth=3) # black
> cross
>
>
>
> norm = matplotlib.colors.BoundaryNorm(levels, 13)
>
> cax = m.pcolormesh(lon, lat, swi, latlon=True, norm=norm,
>
> cmap=swi_colormap)
>
>
>
> #cbar = m.colorbar(cax)
>
> fig = plt.gcf()
>
> #ax = plt.gca()
>
> #cbar = fig.colorbar(cax, orientation='horizontal', shrink=0.75)
>
> #cbaxes = fig.add_axes([0.8, 0.1, 0.03, 0.8])
>
> #cb = fig.colorbar(cax)
>
> cbar = m.colorbar(cax, location='bottom', pad='6%')
>
> cbar.set_label('$W/m^2$', fontsize=18)
>
>
>
> plt.title('NOAA LAPS GHI, RT ' + modelrun_time_label + ', VT ' +
> fcst_time_label)
>
> plt.show()
>
>
>
>
>
> ------------------------------------------------------------------------------
>
> HPCC Systems Open Source Big Data Platform from LexisNexis Risk Solutions
> Find What Matters Most in Your Big Data with HPCC Systems
> Open Source. Fast. Scalable. Simple. Ideal for Dirty Data.
> Leverages Graph Analysis for Fast Processing & Easy Data Exploration
> http://p.sf.net/sfu/hpccsystems
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Hi all,
I am having great difficulty understanding how to change the size of my basemap colorbar, altering its position and moving the text label all at the same time. I would like to:
1. Shrink the size of the colorbar (there doesn't seem to be a shrink property in the basemap.colorbar() method (only plt.colorbar() or fig.colorbar())
2. Move the bar so it is not centered but instead so its right edge is aligned vertically with the right end of the basemap.
3. Move the colorbar W/m^2 text label so it is not below the colorbar but is instead directly to its left.
I looked up several other responses online that mentioned doing things such as adding a second axes, or using the shrink command from plt.colorbar(), and changing some other properties such as padding, but in the end, most of these alterations seem to introduce another problem when I try them. Even after viewing their documentation, I still do not fully understand their proper usage. Also, I tried a few properties listed in the matplotlib documentation such as anchor and panchor in my the fig.colorbar() method in attempt to move the bar around but when I tried to run it, the keyword was not recognized by the interpreter and produced an error (it seems strange that some of the keywords listed in the docs aren't being recognized; and I'm pretty sure I have the most current matplotlib version too). You can see some of the commented commands I tried in the code below (not all at once, of course, but just in various conjunctions with one another). Here is an example of my code and an attached example of what the plot currently looks like after running said code. Any helpful advice would be greatly appreciated. So confused right now and I feel like I've read the docs over and over to little avail (P.S. Getting down to the nitty gritty of working with matplotlib objects and understanding its inner workings to customize my plots better is really confusing, even with the docs, (sigh)):
swi = swi.reshape(1059, 1799)
lat = lat.reshape(1059, 1799)
lon = lon.reshape(1059, 1799)
def plot_conus():
m = mpl_toolkits.basemap.Basemap(
llcrnrlon=-135.0,
llcrnrlat=19.0,
urcrnrlon=-60.0,
urcrnrlat=54.0,
projection='mill',
resolution='c')
m.drawcoastlines()
m.drawcountries()
m.drawstates()
# draw parallels
parallels = np.arange(0.,90,10.)
m.drawparallels(parallels,labels=[1,0,0,0],fontsize=10)
# draw meridians
meridians = np.arange(180.,360.,10.)
m.drawmeridians(meridians,labels=[0,0,0,1],fontsize=10)
return m
# find hex color values at http://www.colorpicker.com
swi_colors = [
#"#f800fd", # light purple
#"#9854c6", # dark purple
"#04e9e7",
"#019ff4",
"#0300f4",
"#02fd02",
"#01c501",
"#008e00",
"#fdf802",
"#e5bc00",
"#fd9500",
"#fd0000",
"#d40000",
"#bc0000",
"#A10505" # brick
]
swi_colormap = matplotlib.colors.ListedColormap(swi_colors)
m = plot_conus()
levels = []
for i in range(13):
levels.append(i*90.0)
# create black and white cross at observatory location on map
site_lon = -87.99495
site_lat = 41.70121
x_site, y_site = m(site_lon, site_lat)
m.plot(x_site, y_site, 'w+', markersize=30, markeredgewidth=8) # white cross
m.plot(x_site, y_site, 'k+', markersize=25, markeredgewidth=3) # black cross
norm = matplotlib.colors.BoundaryNorm(levels, 13)
cax = m.pcolormesh(lon, lat, swi, latlon=True, norm=norm,
cmap=swi_colormap)
#cbar = m.colorbar(cax)
fig = plt.gcf()
#ax = plt.gca()
#cbar = fig.colorbar(cax, orientation='horizontal', shrink=0.75)
#cbaxes = fig.add_axes([0.8, 0.1, 0.03, 0.8])
#cb = fig.colorbar(cax)
cbar = m.colorbar(cax, location='bottom', pad='6%')
cbar.set_label('$W/m^2$', fontsize=18)
plt.title('NOAA LAPS GHI, RT ' + modelrun_time_label + ', VT ' + fcst_time_label)
plt.show()

Hello,
I am plotting something in a file A.py
In another file (B.py), I wish to do
 import A
and then add a curve to that same plot (and replot it).
Is that possible?
Thanks!
--
View this message in context: http://matplotlib.1069221.n5.nabble.com/modifying-a-plot-from-an-imported-module-tp43533.html
Sent from the matplotlib - users mailing list archive at Nabble.com.

Hello all,
I have contour plot like this and I have problem to pick a particular data
along red line and save it.
How do I make it with python program?
<http://matplotlib.1069221.n5.nabble.com/file/n43532/190311.png> 
Thank you in advance.
Dydy
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