mx1 = Mark(20, {'color': 'b'})
my1 = Mark(20, {'color': 'b'})
mz1 = Mark(20, {'color': 'b'})
mx2 = Mark(20, {'color': 'r'})
my2 = Mark(20, {'color': 'r'})
mz2 = Mark(20, {'color': 'r'})
display_options = {}
display_options['interpolation'] = 'nearest'
display_options['cmap'] = pl.cm.gray
ac_display_options = {}
ac_display_options['interpolation'] = 'nearest'
ac_display_options['cmap'] = pl.cm.autumn
vx1 = ImshowView(ax_s1, bg, [mx1, 'h', '-v'], display_options)
vx1.add_layer(maps, [cov1, mx1, 'h', '-v'], ac_display_options)
vx1.add_hmark(my1)
vx1.add_vmark(mz1)
vy1 = ImshowView(ax_f1, bg, ['h', my1, '-v'], display_options)
vy1.add_layer(maps, [cov1, 'h', my1, '-v'], ac_display_options)
vy1.add_hmark(mx1)
vy1.add_vmark(mz1)
vz1 = ImshowView(ax_t1, bg, ['h', '-v', mz1], display_options)
vz1.add_layer(maps, [cov1, 'h', '-v', mz1], ac_display_options)
vz1.add_hmark(mx1)
vz1.add_vmark(my1)
vx2 = ImshowView(ax_s2, bg, [mx2, 'h', '-v'], display_options)
ac_display_options = {}
ac_display_options['interpolation'] = 'nearest'
ac_display_options['cmap'] = pl.cm.autumn
ac_display_options['vmin'] = data_act.min()
ac_display_options['vmax'] = data_act.max()
# Marks
mx = Mark(20, {'color': 'r'})
marks = []
views = []
for i in range(10):
mz = Mark(i * 3 + 3, {'color': 'b'})
marks.append(mz)
ax = fig.add_axes([0.14 * (i % 5), 0.55 * (1 - i / 5), 0.13, 0.45])
ax.axis('off')
vz = ImshowView(ax, data, ['h', '-v', mz], display_options)
vz.add_layer(data_act, ['h', '-v', mz], display_options=ac_display_options)
views.append(vz)
vz.add_hmark(mx)
# Main figure
ax_z = fig.add_axes([0.7, 0., 0.3, 1.])
ax_z.axis('off')
vx = ImshowView(ax_z, data, [mx, 'h', '-v'], display_options)
vx.add_layer(data_act, [mx, 'h', '-v'], display_options=ac_display_options)
for m in marks:
vx.add_vmark(m)
vx.draw()
for v in views:
v.draw()
mx1 = Mark(20, {'color': 'b'})
my1 = Mark(20, {'color': 'b'})
mz1 = Mark(20, {'color': 'b'})
mx2 = Mark(20, {'color': 'r'})
my2 = Mark(20, {'color': 'r'})
mz2 = Mark(20, {'color': 'r'})
display_options = {}
display_options['interpolation'] = 'nearest'
display_options['cmap'] = pl.cm.gray
ac_display_options = {}
ac_display_options['interpolation'] = 'nearest'
ac_display_options['cmap'] = pl.cm.autumn
vx1 = ImshowView(ax_s1, bg, [mx1, 'h', '-v'], display_options)
vx1.add_layer(maps, [cov1, mx1, 'h', '-v'], ac_display_options)
vx1.add_hmark(my1)
vx1.add_vmark(mz1)
vy1 = ImshowView(ax_f1, bg, ['h', my1, '-v'], display_options)
vy1.add_layer(maps, [cov1, 'h', my1, '-v'], ac_display_options)
vy1.add_hmark(mx1)
vy1.add_vmark(mz1)
vz1 = ImshowView(ax_t1, bg, ['h', '-v', mz1], display_options)
vz1.add_layer(maps, [cov1, 'h', '-v', mz1], ac_display_options)
vz1.add_hmark(mx1)
vz1.add_vmark(my1)
vx2 = ImshowView(ax_s2, bg, [mx2, 'h', '-v'], display_options)
ac_display_options = {}
ac_display_options['interpolation'] = 'nearest'
ac_display_options['cmap'] = pl.cm.autumn
ac_display_options['vmin'] = data_act.min()
ac_display_options['vmax'] = data_act.max()
# Marks
mx = Mark(20, {'color': 'r'})
marks = []
views = []
for i in range(10):
mz = Mark(i * 3 + 3, {'color': 'b'})
marks.append(mz)
ax = fig.add_axes([0.14 * (i % 5), 0.55 * (1 - i / 5), 0.13, 0.45])
ax.axis('off')
vz = ImshowView(ax, data, ['h', '-v', mz], display_options)
vz.add_layer(data_act, ['h', '-v', mz], display_options=ac_display_options)
views.append(vz)
vz.add_hmark(mx)
# Main figure
ax_z = fig.add_axes([0.7, 0., 0.3, 1.])
ax_z.axis('off')
vx = ImshowView(ax_z, data, [mx, 'h', '-v'], display_options)
vx.add_layer(data_act, [mx, 'h', '-v'], display_options=ac_display_options)
for m in marks:
vx.add_vmark(m)
vx.draw()
for v in views:
v.draw()
#ax_y = pl.subplot(232)
#ax_z = pl.subplot(233)
#ax_n = pl.subplot(212)
ax_x = fig.add_axes([0.0, 0.2, 0.37, 0.8])
ax_y = fig.add_axes([0.38, 0.2, 0.37, 0.8])
ax_z = fig.add_axes([0.76, 0.2, 0.23, 0.8])
ax_n = fig.add_axes([0.05, 0.05, 0.9, 0.195])
ax_x.axis('off')
ax_y.axis('off')
ax_z.axis('off')
# Views
vx = ImshowView(ax_x, data, [mx, 'h', '-v', mn], display_options)
vx.add_hmark(my)
vx.add_vmark(mz)
vy = ImshowView(ax_y, data, ['h', my, '-v', mn], display_options)
vy.add_hmark(mx)
vy.add_vmark(mz)
vz = ImshowView(ax_z, data, ['h', '-v', mz, mn], display_options)
vz.add_hmark(mx)
vz.add_vmark(my)
vn = PlotView(ax_n, data, [mx, my, mz, 'h'], {'color': 'gray'})
pl.ylim(0, np.max(data))
vn.add_hmark(mn)
my = Mark(20, {'color': 'g'})
mz = Mark(20, {'color': 'b'})
mn = Mark(0, {'color': 'k'})
ax_x = fig.add_axes([0.0, 0.4, 0.37, 0.6])
ax_y = fig.add_axes([0.38, 0.4, 0.37, 0.6])
ax_z = fig.add_axes([0.76, 0.4, 0.23, 0.6])
ax_n = fig.add_axes([0.05, 0.05, 0.9, 0.195])
ax_x.axis('off')
ax_y.axis('off')
ax_z.axis('off')
# Views
vx = ImshowView(ax_x, data, [mx, 'h', '-v', mn], display_options)
vx.add_hmark(my)
vx.add_vmark(mz)
vy = ImshowView(ax_y, data, ['h', my, '-v', mn], display_options)
vy.add_hmark(mx)
vy.add_vmark(mz)
vz = ImshowView(ax_z, data, ['h', '-v', mz, mn], display_options)
vz.add_hmark(mx)
vz.add_vmark(my)
vn = PlotView(ax_n, data, [mx, my, mz, 'h'], {'color': 'gray'})
pl.ylim(np.min(data), 8000.)
vn.add_hmark(mn)
#ax_y = pl.subplot(232)
#ax_z = pl.subplot(233)
#ax_n = pl.subplot(212)
ax_x = fig.add_axes([0.0, 0.2, 0.37, 0.8])
ax_y = fig.add_axes([0.38, 0.2, 0.37, 0.8])
ax_z = fig.add_axes([0.76, 0.2, 0.23, 0.8])
ax_n = fig.add_axes([0.05, 0.05, 0.9, 0.195])
ax_x.axis('off')
ax_y.axis('off')
ax_z.axis('off')
# Views
vx = ImshowView(ax_x, data, [mx, 'h', '-v', mn], display_options)
vx.add_hmark(my)
vx.add_vmark(mz)
vy = ImshowView(ax_y, data, ['h', my, '-v', mn], display_options)
vy.add_hmark(mx)
vy.add_vmark(mz)
vz = ImshowView(ax_z, data, ['h', '-v', mz, mn], display_options)
vz.add_hmark(mx)
vz.add_vmark(my)
vn = PlotView(ax_n, data, [mx, my, mz, 'h'], {'color': 'gray'})
pl.ylim(0, np.max(data))
vn.add_hmark(mn)
