def animate(self, alpha, div=4, particle='tr+'):
s = settings.Settings()
app = mag.Application()
field = RadialField()
field.alpha = alpha
field.Bz0 = app.fieldBaseStrength[2]
outfile = self.filename(particle, alpha)
s.outfile = outfile
with open(s.outpath()) as f:
t, x, y, z = extractData(f, [0, 1, 2, 3])
length = len(z) / div
for i in xrange(div):
# start = i * length
# if i > 0:
# start = (i) * length
start=0
end = (i+1) * length
# Plot front view, no real way to refactor these *sigh*
plt.plot(x[start:end], y[start:end], self.style[particle],
linewidth=1, label=self.label(particle))
xmin, xmax = [ -0.03, 0.03 ]
ymin, ymax = [ -0.03, 0.03 ]
self.plotField(field, xmin, xmax, ymin, ymax, orientation='front')
plt.xlabel('$x$ (m)')
plt.ylabel('$y$ (m)')
plt.tight_layout()
s.outext = '_long_front_{index:03}.pdf'.format(index=i)
plt.savefig(s.outpath())
plt.show()
plt.clf()
# Plot right view, no real way to refactor these *sigh*
plt.plot(z[start:end], y[start:end], self.style[particle],
linewidth=1, label=self.label(particle))
xmin, xmax = [ 0.0, 25 ]
ymin, ymax = [ -0.03, 0.03 ]
self.plotField(field, xmin, xmax, ymin, ymax, orientation='right')
plt.xlabel('$z$ (m)')
plt.ylabel('$y$ (m)')
plt.tight_layout()
s.outext = '_long_right_{index:03}.pdf'.format(index=i)
plt.savefig(s.outpath())
plt.show()
plt.clf()
def plotSuperimposed(self, alpha):
s = settings.Settings()
app = mag.Application()
field = RadialField()
field.alpha = alpha
field.Bz0 = app.fieldBaseStrength[2]
for particle in self.particles:
outfile = self.filename(particle, alpha)
s.outfile = outfile
with open(s.outpath()) as f:
t, x, y, z = extractData(f, [0, 1, 2, 3])
plt.plot(x, y, self.style[particle], label=self.label(particle))
xmin, xmax = [ -0.03, 0.03 ]
ymin, ymax = [ -0.03, 0.03 ]
self.plotField(field, xmin, xmax, ymin, ymax)
plt.xlabel('$z$ (m)')
plt.ylabel('$y$ (m)')
plt.tight_layout()
plt.show()
def plotSuperimposed(self, alpha):
s = settings.Settings()
app = mag.Application()
field = RadialField()
field.alpha = alpha
field.Bz0 = app.fieldBaseStrength[2]
for particle in self.particles:
outfile = self.filename(particle, alpha)
s.outfile = outfile
with open(s.outpath()) as f:
t, x, y, z = extractData(f, [0, 1, 2, 3])
plt.plot(x,
y,
self.style[particle],
label=self.label(particle))
xmin, xmax = [-0.03, 0.03]
ymin, ymax = [-0.03, 0.03]
self.plotField(field, xmin, xmax, ymin, ymax)
plt.xlabel('$z$ (m)')
plt.ylabel('$y$ (m)')
plt.tight_layout()
plt.show()
def animate(self, alpha, div=4, particle='tr+'):
s = settings.Settings()
app = mag.Application()
field = RadialField()
field.alpha = alpha
field.Bz0 = app.fieldBaseStrength[2]
outfile = self.filename(particle, alpha)
s.outfile = outfile
with open(s.outpath()) as f:
t, x, y, z = extractData(f, [0, 1, 2, 3])
length = len(z) / div
for i in xrange(div):
# start = i * length
# if i > 0:
# start = (i) * length
start = 0
end = (i + 1) * length
# Plot front view, no real way to refactor these *sigh*
plt.plot(x[start:end],
y[start:end],
self.style[particle],
linewidth=1,
label=self.label(particle))
xmin, xmax = [-0.03, 0.03]
ymin, ymax = [-0.03, 0.03]
self.plotField(field,
xmin,
xmax,
ymin,
ymax,
orientation='front')
plt.xlabel('$x$ (m)')
plt.ylabel('$y$ (m)')
plt.tight_layout()
s.outext = '_long_front_{index:03}.pdf'.format(index=i)
plt.savefig(s.outpath())
plt.show()
plt.clf()
# Plot right view, no real way to refactor these *sigh*
plt.plot(z[start:end],
y[start:end],
self.style[particle],
linewidth=1,
label=self.label(particle))
xmin, xmax = [0.0, 25]
ymin, ymax = [-0.03, 0.03]
self.plotField(field,
xmin,
xmax,
ymin,
ymax,
orientation='right')
plt.xlabel('$z$ (m)')
plt.ylabel('$y$ (m)')
plt.tight_layout()
s.outext = '_long_right_{index:03}.pdf'.format(index=i)
plt.savefig(s.outpath())
plt.show()
plt.clf()
