def __init__(self, *args, **kywds):
if len(args) == 4:
tri = args[0]
args = args[1:]
else:
tri = None
kywds['use_tri'] = True
FigContour.__init__(self, *args, **kywds)
TrianglePlots.__init__(self)
self._tri = tri
def __init__(self, *args, **kywds):
if len(args) == 4:
tri = args[0]
args = args[1:]
else:
tri = None
kywds['use_tri'] = True
FigContour.__init__(self, *args, **kywds)
TrianglePlots.__init__(self)
self._tri = tri
def __new__(self, *args, **kywds):
if len(args) == 5:
tri = args[0]
args = args[1:]
else:
tri = None
kywds['use_tri'] = True
mask = kywds.pop('mask', None)
obj = FigContour.__new__(self, *args, **kywds)
obj.setp('mask', mask)
obj.setvar('mask', mask)
return obj
def __new__(self, *args, **kywds):
if len(args) == 5:
tri = args[0]
args = args[1:]
else:
tri = None
kywds['use_tri'] = True
mask = kywds.pop('mask', None)
obj = FigContour.__new__(self, *args, **kywds)
obj.setp('mask', mask)
obj.setvar('mask', mask)
return obj
def postprocess_data(
self,
ana,
viewer,
color_order=['red', 'blue', 'yellow'],
):
def set_auto_color_to_color(kargs, name, col):
if (not name in kargs) or (kargs[name] == 'auto'):
kargs[name] = col
return kargs
from ifigure.mto.fig_plot import FigPlot, TimeTrace, StepPlot
from ifigure.mto.fig_contour import FigContour
from ifigure.mto.fig_image import FigImage
from ifigure.mto.fig_surface import FigSurface
from ifigure.mto.fig_axline import FigAxline
from ifigure.mto.fig_axspan import FigAxspan
from ifigure.mto.fig_text import FigText
self._color_order = color_order
dprint2('process_data', self)
if ana.skipped:
if ana.do_title:
self.process_title(ana)
return True
if (self.isempty() and not self.get_figaxes().isempty()
and not self._suppress):
self.generate_artist()
# app = self.get_app()
# ax = self.get_container()
# fig_ax = ax.figobj
ishot = ana.ishot
self._analysis_flag[ishot] = False
col = color_order[ishot % len(color_order)]
for x in range(ishot - self.num_child() + 1):
plot_options = self.getvar('plot_options')
if self._plot_type == 'plot':
kargs = plot_options['plot'][1].copy()
kargs = set_auto_color_to_color(kargs, 'color', col)
kargs = set_auto_color_to_color(kargs, 'markerfacecolor', col)
kargs = set_auto_color_to_color(kargs, 'markeredgecolor', col)
obj = FigPlot([0], [0], *(plot_options['plot'][0]), **kargs)
elif self._plot_type == 'timetrace':
kargs = plot_options['timetrace'][1].copy()
kargs = set_auto_color_to_color(kargs, 'color', col)
kargs = set_auto_color_to_color(kargs, 'markerfacecolor', col)
kargs = set_auto_color_to_color(kargs, 'markeredgecolor', col)
obj = TimeTrace([0], [0], *(plot_options['timetrace'][0]),
**kargs)
elif self._plot_type == 'stepplot':
kargs = plot_options['stepplot'][1].copy()
kargs = set_auto_color_to_color(kargs, 'color', col)
kargs = set_auto_color_to_color(kargs, 'markerfacecolor', col)
kargs = set_auto_color_to_color(kargs, 'markeredgecolor', col)
obj = StepPlot([0], [0], *(plot_options['stepplot'][0]),
**kargs)
elif self._plot_type == 'contour':
obj = FigContour([0, 1], [0, 1],
np.arange(4).reshape(2, 2),
*(plot_options['contour'][0]))
elif self._plot_type == 'image':
obj = FigImage(np.zeros([2, 2]))
elif self._plot_type == 'surface':
obj = FigSurface(np.zeros([2, 2]))
elif self._plot_type == 'axspan':
obj = FigAxspan([0, 1])
elif self._plot_type == 'axline':
obj = FigAxline(np.zeros([1]))
elif self._plot_type == 'text':
obj = FigText(0, 0, '')
name = self._plot_type + str(self.num_child() + 1)
self.add_child(name, obj)
obj.set_container_idx(self._container_idx)
obj.set_suppress(True)
if self.get_script_local():
txt = self.make_script(ana.shot, short=True)
debug_mode = viewer.debug_mode
if txt is not None:
try:
vars = viewer.get_globals_for_figmds(ana.shot)
# print vars
for key in vars:
ana.result[key] = vars[key]
for key in viewer.startup_values:
ana.result[key] = viewer.startup_values[key]
ana.result['shot'] = ana.shot
if self.getvar('posvars') is not None:
a = {}
b = {}
exec self.getvar('posvars') in a, b
for key in b:
ana.result[key] = b[key]
filepath = os.path.join(self.owndir(), script_file_name)
from ifigure.widgets.debugger_core import get_breakpoint
code = compile(txt, filepath, 'exec')
if (len(get_breakpoint(filepath)) != 0 and debug_mode):
app = wx.GetApp().TopWindow
se = app.script_editor
import threading
if not se.CheckDebuggerStatus():
se.QueueSEDRequest(code, viewer.g, ana.result,
filepath)
# print threading.current_thread().name
# wx.Yield()
# time.sleep(3)
else:
se.RunSED(code, viewer.g, ana.result, filepath)
else:
exec code in viewer.g, ana.result
except:
dprint1('error occured when processing data by script')
print(
'error occured when processing data by following script'
)
print('#####')
print(txt)
print('#####')
print(traceback.format_exc())
self.change_suppress(True, self.get_child(ishot))
return False
if ana.do_title:
self.process_title(ana)
if self._plot_type == 'plot':
self._update_plot(ana, ishot) #, color_order)
elif self._plot_type == 'timetrace':
self._update_plot(ana, ishot) #, color_order)
elif self._plot_type == 'stepplot':
self._update_plot(ana, ishot) #, color_order)
elif self._plot_type == 'contour':
self._update_contour(ana, ishot)
elif self._plot_type == 'image':
self._update_image(ana, ishot)
elif self._plot_type == 'surface':
self._update_surface(ana, ishot)
elif self._plot_type == 'axspan':
self._update_axspan(ana, ishot)
elif self._plot_type == 'axline':
self._update_axline(ana, ishot)
elif self._plot_type == 'text':
self._update_text(ana, ishot)
obj = self.get_child(idx=ishot)
if obj.is_suppress():
return False
obj._data_extent = None
try:
if (self.get_figaxes() is not None):
self.get_figaxes().adjust_axes_range()
except:
dprint1(
"failed in adjusting axes at postprocess_data, continuing...")
pass
return True
def onScope2Dc(self, evt):
from ifigure.mto.fig_contour import FigContour
z = self._content().nc_eval(self._td)
obj = FigContour(z)
self._on_scope(obj, False)