Revision: 5765
http://matplotlib.svn.sourceforge.net/matplotlib/?rev=5765&view=rev
Author: jswhit
Date: 2008-07-13 18:58:13 -0700 (Sun, 13 Jul 2008)
Log Message:
-----------
fixes for updated tissot method.
Modified Paths:
--------------
trunk/toolkits/basemap/doc/users/figures/aea.py
trunk/toolkits/basemap/doc/users/figures/eqdc.py
trunk/toolkits/basemap/doc/users/figures/laea.py
trunk/toolkits/basemap/doc/users/figures/lcc.py
trunk/toolkits/basemap/doc/users/figures/stere.py
Modified: trunk/toolkits/basemap/doc/users/figures/aea.py
===================================================================
--- trunk/toolkits/basemap/doc/users/figures/aea.py 2008-07-13 20:51:25 UTC
(rev 5764)
+++ trunk/toolkits/basemap/doc/users/figures/aea.py 2008-07-14 01:58:13 UTC
(rev 5765)
@@ -1,7 +1,6 @@
from mpl_toolkits.basemap import Basemap
import numpy as np
import matplotlib.pyplot as plt
-from matplotlib.patches import Polygon
# setup albers equal area conic basemap
# lat_1 is first standard parallel.
# lat_2 is second standard parallel.
@@ -21,8 +20,7 @@
for y in np.linspace(m.ymax/20,19*m.ymax/20,10):
for x in np.linspace(m.xmax/20,19*m.xmax/20,12):
lon, lat = m(x,y,inverse=True)
- seg = m.tissot(lon,lat,1.,100)
- poly = Polygon(seg,facecolor='green',zorder=10,alpha=0.5)
- ax.add_patch(poly)
+ poly = m.tissot(lon,lat,1.25,100,\
+ facecolor='green',zorder=10,alpha=0.5)
plt.title("Albers Equal Area Projection")
plt.savefig('aea.png')
Modified: trunk/toolkits/basemap/doc/users/figures/eqdc.py
===================================================================
--- trunk/toolkits/basemap/doc/users/figures/eqdc.py 2008-07-13 20:51:25 UTC
(rev 5764)
+++ trunk/toolkits/basemap/doc/users/figures/eqdc.py 2008-07-14 01:58:13 UTC
(rev 5765)
@@ -1,7 +1,6 @@
from mpl_toolkits.basemap import Basemap
import numpy as np
import matplotlib.pyplot as plt
-from matplotlib.patches import Polygon
# setup equidistant conic basemap.
# lat_1 is first standard parallel.
# lat_2 is second standard parallel.
@@ -20,8 +19,7 @@
for y in np.linspace(m.ymax/20,19*m.ymax/20,9):
for x in np.linspace(m.xmax/20,19*m.xmax/20,12):
lon, lat = m(x,y,inverse=True)
- seg = m.tissot(lon,lat,1.5,100)
- poly = Polygon(seg,facecolor='green',zorder=10,alpha=0.5)
- ax.add_patch(poly)
+ poly = m.tissot(lon,lat,1.5,100,\
+ facecolor='green',zorder=10,alpha=0.5)
plt.title("Equidistant Conic Projection")
plt.savefig('eqdc.png')
Modified: trunk/toolkits/basemap/doc/users/figures/laea.py
===================================================================
--- trunk/toolkits/basemap/doc/users/figures/laea.py 2008-07-13 20:51:25 UTC
(rev 5764)
+++ trunk/toolkits/basemap/doc/users/figures/laea.py 2008-07-14 01:58:13 UTC
(rev 5765)
@@ -1,7 +1,6 @@
from mpl_toolkits.basemap import Basemap
import numpy as np
import matplotlib.pyplot as plt
-from matplotlib.patches import Polygon
# setup lambert azimuthal equal area basemap.
# lat_ts is latitude of true scale.
# lon_0,lat_0 is central point.
@@ -19,8 +18,7 @@
for y in np.linspace(m.ymax/20,19*m.ymax/20,9):
for x in np.linspace(m.xmax/20,19*m.xmax/20,12):
lon, lat = m(x,y,inverse=True)
- seg = m.tissot(lon,lat,1.5,100)
- poly = Polygon(seg,facecolor='green',zorder=10,alpha=0.5)
- ax.add_patch(poly)
+ poly = m.tissot(lon,lat,1.5,100,\
+ facecolor='green',zorder=10,alpha=0.5)
plt.title("Lambert Azimuthal Equal Area Projection")
plt.savefig('laea.png')
Modified: trunk/toolkits/basemap/doc/users/figures/lcc.py
===================================================================
--- trunk/toolkits/basemap/doc/users/figures/lcc.py 2008-07-13 20:51:25 UTC
(rev 5764)
+++ trunk/toolkits/basemap/doc/users/figures/lcc.py 2008-07-14 01:58:13 UTC
(rev 5765)
@@ -1,7 +1,6 @@
from mpl_toolkits.basemap import Basemap
import numpy as np
import matplotlib.pyplot as plt
-from matplotlib.patches import Polygon
# setup lambert conformal basemap.
# lat_1 is first standard parallel.
# lat_2 is second standard parallel (defaults to lat_1).
@@ -24,8 +23,7 @@
for y in np.linspace(m.ymax/20,19*m.ymax/20,9):
for x in np.linspace(m.xmax/20,19*m.xmax/20,12):
lon, lat = m(x,y,inverse=True)
- seg = m.tissot(lon,lat,1.5,100)
- poly = Polygon(seg,facecolor='green',zorder=10,alpha=0.5)
- ax.add_patch(poly)
+ poly = m.tissot(lon,lat,1.5,100,\
+ facecolor='green',zorder=10,alpha=0.5)
plt.title("Lambert Conformal Projection")
plt.savefig('lcc.png')
Modified: trunk/toolkits/basemap/doc/users/figures/stere.py
===================================================================
--- trunk/toolkits/basemap/doc/users/figures/stere.py 2008-07-13 20:51:25 UTC
(rev 5764)
+++ trunk/toolkits/basemap/doc/users/figures/stere.py 2008-07-14 01:58:13 UTC
(rev 5765)
@@ -19,8 +19,7 @@
for y in np.linspace(m.ymax/20,19*m.ymax/20,9):
for x in np.linspace(m.xmax/20,19*m.xmax/20,12):
lon, lat = m(x,y,inverse=True)
- seg = m.tissot(lon,lat,1.5,100)
- poly = Polygon(seg,facecolor='green',zorder=10,alpha=0.5)
- ax.add_patch(poly)
+ poly = m.tissot(lon,lat,1.5,100,\
+ facecolor='green',zorder=10,alpha=0.5)
plt.title("Stereographic Projection")
plt.savefig('stere.png')
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