def plot_probe(ProbeFileName,output_dir=None):
load_probe(ProbeFileName)
if PROBE_DIM == 0:
x = [np.cos(2*np.pi*i_site/N_SITES) for i_site in xrange(N_SITES)]
y = [np.sin(2*np.pi*i_site/N_SITES) for i_site in xrange(N_SITES)]
elif PROBE_DIM == 1:
x = [site.x for site in PROBE_SITES]
y = [0 for site in PROBE_SITES]
elif PROBE_DIM == 2:
x = [site.x for site in PROBE_SITES]
y = [site.y for site in PROBE_SITES]
#if max2min(x) > max2min(y):
#figsize = (6,1+max2min(y)/max2min(x)*6)
#else:
#figsize = (1+max2min(x)/max2min(y)*6,6)
plt.plot(x,y,'go')
ax = plt.gca()
ax.set_xticks([])
ax.set_yticks([])
for ind_src,ind_targ in edges(PROBE_GRAPH):
ax.add_line(matplotlib.lines.Line2D([x[ind_src],x[ind_targ]],[y[ind_src],y[ind_targ]],lw=1))
for ind_node in nodes(PROBE_GRAPH):
site = PROBE_SITES[ind_node]
ax.text(x[ind_node],y[ind_node],site.name,color='r')
img_filename = join(output_dir or dirname(ProbeFileName),switch_ext(basename(ProbeFileName),"png"))
print("Saving figure as %s"%abspath(img_filename))
plt.savefig(img_filename)
def plot_probe(ProbeFileName, output_dir=None):
load_probe(ProbeFileName)
if PROBE_DIM == 0:
x = [
np.cos(2 * np.pi * i_site / N_SITES) for i_site in xrange(N_SITES)
]
y = [
np.sin(2 * np.pi * i_site / N_SITES) for i_site in xrange(N_SITES)
]
elif PROBE_DIM == 1:
x = [site.x for site in PROBE_SITES]
y = [0 for site in PROBE_SITES]
elif PROBE_DIM == 2:
x = [site.x for site in PROBE_SITES]
y = [site.y for site in PROBE_SITES]
#if max2min(x) > max2min(y):
#figsize = (6,1+max2min(y)/max2min(x)*6)
#else:
#figsize = (1+max2min(x)/max2min(y)*6,6)
plt.plot(x, y, 'go')
ax = plt.gca()
ax.set_xticks([])
ax.set_yticks([])
for ind_src, ind_targ in edges(PROBE_GRAPH):
ax.add_line(
matplotlib.lines.Line2D([x[ind_src], x[ind_targ]],
[y[ind_src], y[ind_targ]],
lw=1))
for ind_node in nodes(PROBE_GRAPH):
site = PROBE_SITES[ind_node]
ax.text(x[ind_node], y[ind_node], site.name, color='r')
img_filename = join(output_dir or dirname(ProbeFileName),
switch_ext(basename(ProbeFileName), "png"))
print("Saving figure as %s" % abspath(img_filename))
plt.savefig(img_filename)
def get_edge_lines(): return ["%s %s"%(PROBE_SITES[src].name,PROBE_SITES[targ].name) for (src,targ) in edges(PROBE_GRAPH) if src<targ] def get_group_lines(): return [string.join([PROBE_SITES[i_site].name for i_site in group]," ")
def get_edge_lines():
return [
"%s %s" % (PROBE_SITES[src].name, PROBE_SITES[targ].name)
for (src, targ) in edges(PROBE_GRAPH) if src < targ
]
