def test():
import vcs_legacy, cdms2 as cdms, time, os, sys, support # import vcs_legacy and cdms
bg = support.bg
f = cdms.open(
os.path.join(cdms.__path__[0], '..', '..', '..', '..', 'sample_data',
'clt.nc')) # open clt file
u = f('u') # get slab u
x = vcs_legacy.init() # construct vcs_legacy canvas
x.plot(u, 'default', 'xyvsy', 'ASD7', bg=bg) # plot slab the old way
support.check_plot(x)
if bg == 0:
x.geometry(450, 337, 100, 0) # change the geometry and location
x.flush()
support.check_plot(x)
a = x.getxyvsy('ASD7') # get 'ASD1' xyvsy
if not vcs_legacy.isgraphicsmethod(
a): # test object 'a' for graphics method
raise Exception, "Error did not retrieve the gm"
else:
if not vcs_legacy.isxyvsy(a): # test object 'a' if xyvsy
raise Exception, "Error gm is not right type"
a.script('test', 'w') # save 'ASD7' xyvsy as a Python script
a.xticlabels('', '') # remove the x-axis
support.check_plot(x)
a.xticlabels('*') # put the x-axis
support.check_plot(x)
############################################################################
# Change the xyvsy line #
############################################################################
a.line = 0 # same as 'solid'
support.check_plot(x)
a.line = 1 # same as 'dash'
support.check_plot(x)
a.line = 2 # same as 'dot'
support.check_plot(x)
a.line = 3 # same as 'dash-dot'
support.check_plot(x)
a.line = 4 # same as 'long-dash'
support.check_plot(x)
if not '--extended' in sys.argv:
print '\n************* PARTIAL TEST *****************'
print 'FOR COMPLETE TEST OF THIS MODULE USE '
print ' -F (--full) or -E (--extended) option'
print '************* PARTIAL TEST *****************\n'
sys.exit()
############################################################################
# Change the xyvsy line color #
############################################################################
a.linecolor = (77)
support.check_plot(x)
a.linecolor = 16
support.check_plot(x)
a.linecolor = 44 # same as a.color=(44)
support.check_plot(x)
a.linecolor = None
support.check_plot(x)
############################################################################
# Change the xyvsy marker #
############################################################################
a.marker = 1 # Same as a.marker='dot'
support.check_plot(x)
a.marker = 2 # Same as a.marker='plus'
support.check_plot(x)
a.marker = 3 # Same as a.marker='star'
support.check_plot(x)
a.marker = 4 # Same as a.marker='circle'
support.check_plot(x)
a.marker = 5 # Same as a.marker='cross'
support.check_plot(x)
a.marker = 6 # Same as a.marker='diamond'
support.check_plot(x)
a.marker = 7 # Same as a.marker='triangle_up'
support.check_plot(x)
a.marker = 8 # Same as a.marker='triangle_down'
support.check_plot(x)
a.marker = 9 # Same as a.marker='triangle_left'
support.check_plot(x)
a.marker = 10 # Same as a.marker='triangle_right'
support.check_plot(x)
a.marker = 11 # Same as a.marker='square'
support.check_plot(x)
a.marker = 12 # Same as a.marker='diamond_fill'
support.check_plot(x)
a.marker = 13 # Same as a.marker='triangle_up_fill'
support.check_plot(x)
a.marker = 14 # Same as a.marker='triangle_down_fill'
support.check_plot(x)
a.marker = 15 # Same as a.marker='triangle_left_fill'
support.check_plot(x)
a.marker = 16 # Same as a.marker='triangle_right_fill'
support.check_plot(x)
a.marker = 17 # Same as a.marker='square_fill'
support.check_plot(x)
a.marker = None # Draw no markers
support.check_plot(x)
############################################################################
# Change the xyvsy marker color #
############################################################################
a.marker = 'dot'
support.check_plot(x)
a.markercolor = 16
support.check_plot(x)
a.markercolor = 44 # same as a.markercolor=(44)
support.check_plot(x)
a.markercolor = None
support.check_plot(x)
############################################################################
# Change the xyvsy marker size #
############################################################################
a.markersize = 5
support.check_plot(x)
a.markersize = 55
support.check_plot(x)
a.markersize = 10
support.check_plot(x)
a.markersize = 100
support.check_plot(x)
a.markersize = 300
support.check_plot(x)
a.markersize = None
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.xyvsy(u, a, 'default', bg=bg) # plot xyvsy using 'default' template
support.check_plot(x)
objs = x.listelements('template') # get the list of templates
t = x.createtemplate(
'test') # create template 'test' from 'default' template
if not vcs_legacy.istemplate(t): # test whether 't' is a template or not
raise Exception, "Error template not created"
else:
a2 = x.listelements('template') # get the list of templates
if objs == a2:
raise Exception, "Error template not created or added to list"
x.clear() # clear the VCS Canvas
x.plot(t, a, u,
bg=bg) # plot xyvsy template 't', outline 'a', and arrays 'u':'v'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.xyvsy(a, u, t,
bg=bg) # plot using outline 'a', array 'u':'v', and template 't'
support.check_plot(x)
objs = x.listelements('line') # show the list of line secondary objects
l = x.getline('red') # get line 'red'
if not vcs_legacy.issecondaryobject(
l): # check to see if it is a secondary object
raise Exception, "Error did not get line"
else:
if not vcs_legacy.isline(l): # check to see if it is a line
raise Exception, "Error object created is not line"
###########################################################################
# Use the create line object 'm' from above and modify the line object #
###########################################################################
a.line = l # use the line object
l.color = 44 # change the line color
support.check_plot(x)
l.type = 'dot' # change the line type
support.check_plot(x)
l.width = 4 # change the line size
support.check_plot(x)
objs = x.listelements(
'marker') # show the list of marker secondary objects
m = x.getmarker('red') # get marker 'red'
if not vcs_legacy.issecondaryobject(
m): # check to see if it is a secondary object
raise Exception, "Error did not get marker"
else:
if not vcs_legacy.ismarker(m): # check to see if it is a line
raise Exception, "Error object created is not marker"
###########################################################################
# Use the create marker object 'm' from above and modify the line object #
###########################################################################
a.marker = m # use the marker object
support.check_plot(x)
m.color = 44 # change the marker color
support.check_plot(x)
m.type = 'square' # change the marker type
support.check_plot(x)
m.size = 20 # change the marker size
support.check_plot(x)
a = x.listelements('xyvsy') # show list of xyvsy
r = x.createxyvsy('test2', 'ASD1') # create xyvsy 'test2'
a2 = x.listelements('xyvsy') # show list of xyvsy
if a2 == a:
raise "error gm not created or not added to list"
x.removeobject(r) # remove xyvsy 'test2'
a3 = x.listelements('xyvsy') # show list of xyvsy
if a3 != a:
raise "error gm not removed"
#################################################################################
# to see how x.update and x.mode work, see testoutline.py #
#################################################################################
#x.update()
#x.mode=1
#x.mode=0
print '*************************************************************************************'
print '****** ******'
print '****** X y v s y T E S T C O M P L E T E D S U C E S S F U L L Y ******'
print '****** ******'
print '*************************************************************************************'
def test():
import vcs_legacy, cdms2, time, os, sys, support # import vcs_legacy and cu
bg = support.bg
f = cdms2.open(
os.path.join(cdms2.__path__[0], '..', '..', '..', '..', 'sample_data',
'clt.nc'))
u = f('u') # get slab u
v = f('v') # get slab v
x = vcs_legacy.init() # construct vcs_legacy canvas
x.plot(u, v, 'default', 'scatter', 'quick', bg=bg) # plot slab the old way
support.check_plot(x)
if bg == 0:
x.mode = 1
x.geometry(450, 337, 100, 0) # change the geometry and location
x.flush()
support.check_plot(x)
a = x.getscatter('quick') # get 'quick' scatter
if not vcs_legacy.isgraphicsmethod(
a): # test object 'a' for graphics method
raise Exception, "Error did not retrieve the gm"
else:
if not vcs_legacy.isscatter(a): # test object 'a' if scatter
raise Exception, "Error gm is not right type"
a.script('test', 'w') # save 'quick' scatter as a Python script
print 'yepp'
a.xticlabels('', '') # remove the x-axis
support.check_plot(x)
a.xticlabels('*') # put the x-axis
support.check_plot(x)
############################################################################
# Change the scatter marker type #
############################################################################
#a.marker=0
a.marker = 1 # same as a.marker='dot'
support.check_plot(x)
a.marker = 2 # same as a.marker='plus'
support.check_plot(x)
a.marker = 3 # same as a.marker='star'
support.check_plot(x)
a.marker = 4 # same as a.marker='circle'
support.check_plot(x)
a.marker = 5 # same as a.marker='cross'
support.check_plot(x)
a.marker = 6 # same as a.marker='diamond'
support.check_plot(x)
a.marker = 7 # same as a.marker='triangle_up'
support.check_plot(x)
a.marker = 8 # same as a.marker='triangle_down'
support.check_plot(x)
a.marker = 9 # same as a.marker='triangle_left'
support.check_plot(x)
a.marker = 10 # same as a.marker='triangle_right'
support.check_plot(x)
a.marker = 11 # same as a.marker='square'
support.check_plot(x)
a.marker = 12 # same as a.marker='diamond_fill'
support.check_plot(x)
a.marker = 13 # same as a.marker='triangle_up_fill'
support.check_plot(x)
a.marker = 14 # same as a.marker='triangle_down_fill'
support.check_plot(x)
a.marker = 15 # same as a.marker='triangle_left_fill'
support.check_plot(x)
a.marker = 16 # same as a.marker='triangle_right_fill'
support.check_plot(x)
a.marker = 17 # same as a.marker='square_fill'
support.check_plot(x)
############################################################################
# Change the scatter marker size #
############################################################################
a.markersize = 5
support.check_plot(x)
a.markersize = 55
support.check_plot(x)
a.markersize = 100
support.check_plot(x)
a.markersize = 300
support.check_plot(x)
a.markersize = 15
support.check_plot(x)
############################################################################
# Change the scatter marker color #
############################################################################
a.markercolor = (77)
support.check_plot(x)
a.markercolor = 16
support.check_plot(x)
a.markercolor = 44 # same as a.markercolor=(44)
support.check_plot(x)
############################################################################
# Change the scatter settings to default #
############################################################################
a.markercolor = None
support.check_plot(x)
a.markersize = None
support.check_plot(x)
a.marker = None
support.check_plot(x)
a.marker = 1 # same as a.marker='dot'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.scatter(u, v, a, 'default',
bg=bg) # plot scatter using 'default' template
support.check_plot(x)
t = x.createtemplate(
'test') # create template 'test' from 'default' template
x.clear() # clear the VCS Canvas
x.plot(t, a, u, v,
bg=bg) # plot scatter template 't', outline 'a', and arrays 'u':'v'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.scatter(a, u, v, t,
bg=bg) # plot using outline 'a', array 'u':'v', and template 't'
support.check_plot(x)
m = x.getmarker('red') # get marker 'red'
if vcs_legacy.issecondaryobject(
m): # check to see if it is a secondary object
if not vcs_legacy.ismarker(m): # check to see if it is a fill area
raise Exception, "Error: this is not a marker object."
else:
raise Exception, "Error: this is not a sceondary object."
###########################################################################
# Use the create marker object 'm' from above and modify the line object #
###########################################################################
a.marker = m # use the marker object
support.check_plot(x)
m.color = 44 # change the marker color
support.check_plot(x)
m.type = 'square' # change the marker type
support.check_plot(x)
m.size = 20 # change the marker size
support.check_plot(x)
e = x.listelements('scatter') # show list of scatter
r = x.createscatter('test2', 'quick') # create scatter 'test2'
e2 = x.listelements('scatter') # show list of scatter
if e2 == e:
raise Exception, "Error new scatter does not appear in list"
e3 = list(e)
e3.append("test2")
e3.sort()
if e3 != e2:
raise "Error new scatter created but not matching old list of scatter"
x.removeobject(r) # remove scatter 'test2'
e4 = x.listelements('scatter') # show list of scatter
if e4 != e:
raise Exception, "Error method not removed"
#################################################################################
# to see how x.update and x.mode work, see testoutline.py #
#################################################################################
#x.update()
#x.mode=1
#x.mode=0
print '*************************************************************************************'
print '****** ******'
print '****** S C A T T E R T E S T C O M P L E T E D S U C E S S F U L L Y ******'
print '****** ******'
print '*************************************************************************************'
def test():
import vcs_legacy, cdms2 as cdms, time, os, sys, support # import vcs_legacy and cdms
bg = support.bg
f = cdms.open(os.path.join(cdms.__path__[0], "..", "..", "..", "..", "sample_data", "clt.nc")) # open clt file
u = f("u") # get slab u
x = vcs_legacy.init() # construct vcs_legacy canvas
x.plot(u, "default", "xyvsy", "ASD7", bg=bg) # plot slab the old way
support.check_plot(x)
if bg == 0:
x.geometry(450, 337, 100, 0) # change the geometry and location
x.flush()
support.check_plot(x)
a = x.getxyvsy("ASD7") # get 'ASD1' xyvsy
if not vcs_legacy.isgraphicsmethod(a): # test object 'a' for graphics method
raise Exception, "Error did not retrieve the gm"
else:
if not vcs_legacy.isxyvsy(a): # test object 'a' if xyvsy
raise Exception, "Error gm is not right type"
a.script("test", "w") # save 'ASD7' xyvsy as a Python script
a.xticlabels("", "") # remove the x-axis
support.check_plot(x)
a.xticlabels("*") # put the x-axis
support.check_plot(x)
############################################################################
# Change the xyvsy line #
############################################################################
a.line = 0 # same as 'solid'
support.check_plot(x)
a.line = 1 # same as 'dash'
support.check_plot(x)
a.line = 2 # same as 'dot'
support.check_plot(x)
a.line = 3 # same as 'dash-dot'
support.check_plot(x)
a.line = 4 # same as 'long-dash'
support.check_plot(x)
if not "--extended" in sys.argv:
print "\n************* PARTIAL TEST *****************"
print "FOR COMPLETE TEST OF THIS MODULE USE "
print " -F (--full) or -E (--extended) option"
print "************* PARTIAL TEST *****************\n"
sys.exit()
############################################################################
# Change the xyvsy line color #
############################################################################
a.linecolor = 77
support.check_plot(x)
a.linecolor = 16
support.check_plot(x)
a.linecolor = 44 # same as a.color=(44)
support.check_plot(x)
a.linecolor = None
support.check_plot(x)
############################################################################
# Change the xyvsy marker #
############################################################################
a.marker = 1 # Same as a.marker='dot'
support.check_plot(x)
a.marker = 2 # Same as a.marker='plus'
support.check_plot(x)
a.marker = 3 # Same as a.marker='star'
support.check_plot(x)
a.marker = 4 # Same as a.marker='circle'
support.check_plot(x)
a.marker = 5 # Same as a.marker='cross'
support.check_plot(x)
a.marker = 6 # Same as a.marker='diamond'
support.check_plot(x)
a.marker = 7 # Same as a.marker='triangle_up'
support.check_plot(x)
a.marker = 8 # Same as a.marker='triangle_down'
support.check_plot(x)
a.marker = 9 # Same as a.marker='triangle_left'
support.check_plot(x)
a.marker = 10 # Same as a.marker='triangle_right'
support.check_plot(x)
a.marker = 11 # Same as a.marker='square'
support.check_plot(x)
a.marker = 12 # Same as a.marker='diamond_fill'
support.check_plot(x)
a.marker = 13 # Same as a.marker='triangle_up_fill'
support.check_plot(x)
a.marker = 14 # Same as a.marker='triangle_down_fill'
support.check_plot(x)
a.marker = 15 # Same as a.marker='triangle_left_fill'
support.check_plot(x)
a.marker = 16 # Same as a.marker='triangle_right_fill'
support.check_plot(x)
a.marker = 17 # Same as a.marker='square_fill'
support.check_plot(x)
a.marker = None # Draw no markers
support.check_plot(x)
############################################################################
# Change the xyvsy marker color #
############################################################################
a.marker = "dot"
support.check_plot(x)
a.markercolor = 16
support.check_plot(x)
a.markercolor = 44 # same as a.markercolor=(44)
support.check_plot(x)
a.markercolor = None
support.check_plot(x)
############################################################################
# Change the xyvsy marker size #
############################################################################
a.markersize = 5
support.check_plot(x)
a.markersize = 55
support.check_plot(x)
a.markersize = 10
support.check_plot(x)
a.markersize = 100
support.check_plot(x)
a.markersize = 300
support.check_plot(x)
a.markersize = None
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.xyvsy(u, a, "default", bg=bg) # plot xyvsy using 'default' template
support.check_plot(x)
objs = x.listelements("template") # get the list of templates
t = x.createtemplate("test") # create template 'test' from 'default' template
if not vcs_legacy.istemplate(t): # test whether 't' is a template or not
raise Exception, "Error template not created"
else:
a2 = x.listelements("template") # get the list of templates
if objs == a2:
raise Exception, "Error template not created or added to list"
x.clear() # clear the VCS Canvas
x.plot(t, a, u, bg=bg) # plot xyvsy template 't', outline 'a', and arrays 'u':'v'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.xyvsy(a, u, t, bg=bg) # plot using outline 'a', array 'u':'v', and template 't'
support.check_plot(x)
objs = x.listelements("line") # show the list of line secondary objects
l = x.getline("red") # get line 'red'
if not vcs_legacy.issecondaryobject(l): # check to see if it is a secondary object
raise Exception, "Error did not get line"
else:
if not vcs_legacy.isline(l): # check to see if it is a line
raise Exception, "Error object created is not line"
###########################################################################
# Use the create line object 'm' from above and modify the line object #
###########################################################################
a.line = l # use the line object
l.color = 44 # change the line color
support.check_plot(x)
l.type = "dot" # change the line type
support.check_plot(x)
l.width = 4 # change the line size
support.check_plot(x)
objs = x.listelements("marker") # show the list of marker secondary objects
m = x.getmarker("red") # get marker 'red'
if not vcs_legacy.issecondaryobject(m): # check to see if it is a secondary object
raise Exception, "Error did not get marker"
else:
if not vcs_legacy.ismarker(m): # check to see if it is a line
raise Exception, "Error object created is not marker"
###########################################################################
# Use the create marker object 'm' from above and modify the line object #
###########################################################################
a.marker = m # use the marker object
support.check_plot(x)
m.color = 44 # change the marker color
support.check_plot(x)
m.type = "square" # change the marker type
support.check_plot(x)
m.size = 20 # change the marker size
support.check_plot(x)
a = x.listelements("xyvsy") # show list of xyvsy
r = x.createxyvsy("test2", "ASD1") # create xyvsy 'test2'
a2 = x.listelements("xyvsy") # show list of xyvsy
if a2 == a:
raise "error gm not created or not added to list"
x.removeobject(r) # remove xyvsy 'test2'
a3 = x.listelements("xyvsy") # show list of xyvsy
if a3 != a:
raise "error gm not removed"
#################################################################################
# to see how x.update and x.mode work, see testoutline.py #
#################################################################################
# x.update()
# x.mode=1
# x.mode=0
print "*************************************************************************************"
print "****** ******"
print "****** X y v s y T E S T C O M P L E T E D S U C E S S F U L L Y ******"
print "****** ******"
print "*************************************************************************************"
def test():
import vcs_legacy,cdms2 as cdms,time,os,sys,support # import vcs_legacy and cdms
bg=support.bg
f=cdms.open(os.path.join(cdms.__path__[0],'..','..','..','..','sample_data','clt.nc')) # open clt file
u=f('u') # get slab u
x=vcs_legacy.init() # construct vcs_legacy canvas
x.plot(u, 'default','yxvsx','ASD7',bg=bg) # plot slab the old way
support.check_plot(x)
if support.dogui:
x.geometry(450,337,100,0) # change the geometry and location
x.flush()
support.check_plot(x)
a=x.getyxvsx('ASD7') # get 'ASD7' yxvsx
if not vcs_legacy.isgraphicsmethod(a): # test object 'a' for graphics method
raise Exception, "Error not a gm"
else:
if not vcs_legacy.isyxvsx(a): # test object 'a' if yxvsx
raise Exception,"Error wrong type of gm"
a.script('test','w') # save 'ASD7' yxvsx as a Python script
a.xticlabels('','') # remove the x-axis
support.check_plot(x)
a.xticlabels('*') # put the x-axis
support.check_plot(x)
############################################################################
# Change the yxvsx line #
############################################################################
a.line=0 # same as 'solid'
support.check_plot(x)
a.line=1 # same as 'dash'
support.check_plot(x)
a.line=2 # same as 'dot'
support.check_plot(x)
a.line=3 # same as 'dash-dot'
support.check_plot(x)
a.line=4 # same as 'long-dash'
support.check_plot(x)
if not '--extended' in sys.argv:
print '\n************* PARTIAL TEST *****************'
print 'FOR COMPLETE TEST OF THIS MODULE USE '
print ' -F (--full) or -E (--extended) option'
print '************* PARTIAL TEST *****************\n'
sys.exit()
############################################################################
# Change the yxvsx line color #
############################################################################
a.linecolor=(77)
support.check_plot(x)
a.linecolor=16
support.check_plot(x)
a.linecolor=44 # same as a.color=(44)
support.check_plot(x)
a.linecolor=None
support.check_plot(x)
############################################################################
# Change the yxvsx marker #
############################################################################
a.marker=1 # Same as a.marker='dot'
support.check_plot(x)
a.marker=2 # Same as a.marker='plus'
support.check_plot(x)
a.marker=3 # Same as a.marker='star'
support.check_plot(x)
a.marker=4 # Same as a.marker='circle'
support.check_plot(x)
a.marker=5 # Same as a.marker='cross'
support.check_plot(x)
a.marker=6 # Same as a.marker='diamond'
support.check_plot(x)
a.marker=7 # Same as a.marker='triangle_up'
support.check_plot(x)
a.marker=8 # Same as a.marker='triangle_down'
support.check_plot(x)
a.marker=9 # Same as a.marker='triangle_left'
support.check_plot(x)
a.marker=10 # Same as a.marker='triangle_right'
support.check_plot(x)
a.marker=11 # Same as a.marker='square'
support.check_plot(x)
a.marker=12 # Same as a.marker='diamond_fill'
support.check_plot(x)
a.marker=13 # Same as a.marker='triangle_up_fill'
support.check_plot(x)
a.marker=14 # Same as a.marker='triangle_down_fill'
support.check_plot(x)
a.marker=15 # Same as a.marker='triangle_left_fill'
support.check_plot(x)
a.marker=16 # Same as a.marker='triangle_right_fill'
support.check_plot(x)
a.marker=17 # Same as a.marker='square_fill'
support.check_plot(x)
a.marker=None # Draw no markers
support.check_plot(x)
############################################################################
# Change the yxvsx marker color #
############################################################################
a.marker='dot'
support.check_plot(x)
a.markercolor=16
support.check_plot(x)
a.markercolor=44 # same as a.markercolor=(44)
support.check_plot(x)
a.markercolor=None
support.check_plot(x)
############################################################################
# Change the yxvsx marker size #
############################################################################
a.markersize=5
support.check_plot(x)
a.markersize=55
support.check_plot(x)
a.markersize=10
support.check_plot(x)
a.markersize=100
support.check_plot(x)
a.markersize=300
support.check_plot(x)
a.markersize=None
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.yxvsx(u, a,'default',bg=bg) # plot yxvsx using 'default' template
support.check_plot(x)
objs = x.listelements('template') # show the list of templates
t=x.createtemplate('test') # create template 'test' from 'default' template
if not vcs_legacy.istemplate(t): # test whether 't' is a template or not
raise Exception,"Error creating tmeplate"
x.clear() # clear the VCS Canvas
x.plot(t,a,u,bg=bg) # plot yxvsx template 't', outline 'a', and arrays 'u':'v'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.yxvsx(a,u,t,bg=bg) # plot using outline 'a', array 'u':'v', and template 't'
support.check_plot(x)
objs = x.listelements('line') # show the list of line secondary objects
l=x.getline('red') # get line 'red'
if not vcs_legacy.issecondaryobject(l): # check to see if it is a secondary object
raise Exception,"Error did not get line"
else:
if not vcs_legacy.isline(l): # check to see if it is a line
raise Exception, "Error object created is not line"
###########################################################################
# Use the create line object 'm' from above and modify the line object #
###########################################################################
a.line=l # use the line object
support.check_plot(x)
l.color = 44 # change the line color
support.check_plot(x)
l.type ='dot' # change the line type
support.check_plot(x)
l.width=4 # change the line size
support.check_plot(x)
objs = x.listelements('marker') # show the list of marker secondary objects
m=x.getmarker('red') # get marker 'red'
if not vcs_legacy.issecondaryobject(m): # check to see if it is a secondary object
raise Exception,"Error did not get marker"
else:
if not vcs_legacy.ismarker(m): # check to see if it is a line
raise Exception, "Error object created is not marker"
###########################################################################
# Use the create marker object 'm' from above and modify the line object #
###########################################################################
a.marker=m # use the marker object
support.check_plot(x)
m.color = 44 # change the marker color
support.check_plot(x)
m.type ='square' # change the marker type
support.check_plot(x)
m.size=20 # change the marker size
support.check_plot(x)
a = x.listelements('yxvsx') # show list of xyvsy
r=x.createyxvsx('test2','ASD1') # create xyvsy 'test2'
a2 = x.listelements('yxvsx') # show list of xyvsy
if a2==a:
raise "error gm not created or not added to list"
x.removeobject(r) # remove xyvsy 'test2'
a3 = x.listelements('yxvsx') # show list of xyvsy
if a3!=a:
raise "error gm not removed"
#################################################################################
# to see how x.update and x.mode work, see testoutline.py #
#################################################################################
#x.update()
#x.mode=1
#x.mode=0
print '*************************************************************************************'
print '****** ******'
print '****** Y x v s x T E S T C O M P L E T E D S U C E S S F U L L Y ******'
print '****** ******'
print '*************************************************************************************'
def test():
import vcs_legacy,cdms2,time,os,sys,support # import vcs_legacy and cu
bg=support.bg
f=cdms2.open(os.path.join(cdms2.__path__[0],'..','..','..','..','sample_data','clt.nc'))
u=f('u') # get slab u
v=f('v') # get slab v
x=vcs_legacy.init() # construct vcs_legacy canvas
x.plot(u, v, 'default','scatter','quick',bg=bg) # plot slab the old way
support.check_plot(x)
if bg==0:
x.mode=1
x.geometry(450,337,100,0) # change the geometry and location
x.flush()
support.check_plot(x)
a=x.getscatter('quick') # get 'quick' scatter
if not vcs_legacy.isgraphicsmethod(a): # test object 'a' for graphics method
raise Exception, "Error did not retrieve the gm"
else:
if not vcs_legacy.isscatter(a): # test object 'a' if scatter
raise Exception, "Error gm is not right type"
a.script('test','w') # save 'quick' scatter as a Python script
print 'yepp'
a.xticlabels('','') # remove the x-axis
support.check_plot(x)
a.xticlabels('*') # put the x-axis
support.check_plot(x)
############################################################################
# Change the scatter marker type #
############################################################################
#a.marker=0
a.marker=1 # same as a.marker='dot'
support.check_plot(x)
a.marker=2 # same as a.marker='plus'
support.check_plot(x)
a.marker=3 # same as a.marker='star'
support.check_plot(x)
a.marker=4 # same as a.marker='circle'
support.check_plot(x)
a.marker=5 # same as a.marker='cross'
support.check_plot(x)
a.marker=6 # same as a.marker='diamond'
support.check_plot(x)
a.marker=7 # same as a.marker='triangle_up'
support.check_plot(x)
a.marker=8 # same as a.marker='triangle_down'
support.check_plot(x)
a.marker=9 # same as a.marker='triangle_left'
support.check_plot(x)
a.marker=10 # same as a.marker='triangle_right'
support.check_plot(x)
a.marker=11 # same as a.marker='square'
support.check_plot(x)
a.marker=12 # same as a.marker='diamond_fill'
support.check_plot(x)
a.marker=13 # same as a.marker='triangle_up_fill'
support.check_plot(x)
a.marker=14 # same as a.marker='triangle_down_fill'
support.check_plot(x)
a.marker=15 # same as a.marker='triangle_left_fill'
support.check_plot(x)
a.marker=16 # same as a.marker='triangle_right_fill'
support.check_plot(x)
a.marker=17 # same as a.marker='square_fill'
support.check_plot(x)
############################################################################
# Change the scatter marker size #
############################################################################
a.markersize=5
support.check_plot(x)
a.markersize=55
support.check_plot(x)
a.markersize=100
support.check_plot(x)
a.markersize=300
support.check_plot(x)
a.markersize=15
support.check_plot(x)
############################################################################
# Change the scatter marker color #
############################################################################
a.markercolor=(77)
support.check_plot(x)
a.markercolor=16
support.check_plot(x)
a.markercolor=44 # same as a.markercolor=(44)
support.check_plot(x)
############################################################################
# Change the scatter settings to default #
############################################################################
a.markercolor=None
support.check_plot(x)
a.markersize=None
support.check_plot(x)
a.marker=None
support.check_plot(x)
a.marker=1 # same as a.marker='dot'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.scatter(u, v, a,'default',bg=bg) # plot scatter using 'default' template
support.check_plot(x)
t=x.createtemplate('test') # create template 'test' from 'default' template
x.clear() # clear the VCS Canvas
x.plot(t,a,u,v,bg=bg) # plot scatter template 't', outline 'a', and arrays 'u':'v'
support.check_plot(x)
x.clear() # clear the VCS Canvas
x.scatter(a,u,v,t,bg=bg) # plot using outline 'a', array 'u':'v', and template 't'
support.check_plot(x)
m=x.getmarker('red') # get marker 'red'
if vcs_legacy.issecondaryobject(m): # check to see if it is a secondary object
if not vcs_legacy.ismarker(m): # check to see if it is a fill area
raise Exception, "Error: this is not a marker object."
else:
raise Exception, "Error: this is not a sceondary object."
###########################################################################
# Use the create marker object 'm' from above and modify the line object #
###########################################################################
a.marker=m # use the marker object
support.check_plot(x)
m.color = 44 # change the marker color
support.check_plot(x)
m.type ='square' # change the marker type
support.check_plot(x)
m.size=20 # change the marker size
support.check_plot(x)
e = x.listelements('scatter') # show list of scatter
r=x.createscatter('test2','quick') # create scatter 'test2'
e2 = x.listelements('scatter') # show list of scatter
if e2==e:
raise Exception,"Error new scatter does not appear in list"
e3=list(e)
e3.append("test2")
e3.sort()
if e3!=e2:
raise "Error new scatter created but not matching old list of scatter"
x.removeobject(r) # remove scatter 'test2'
e4 = x.listelements('scatter') # show list of scatter
if e4!=e:
raise Exception,"Error method not removed"
#################################################################################
# to see how x.update and x.mode work, see testoutline.py #
#################################################################################
#x.update()
#x.mode=1
#x.mode=0
print '*************************************************************************************'
print '****** ******'
print '****** S C A T T E R T E S T C O M P L E T E D S U C E S S F U L L Y ******'
print '****** ******'
print '*************************************************************************************'