def graph_it(self):
'''prepares plot and calls PlotPopup'''
to_plot = []
for item in self.ids['graph_space'].children[1:]:
if isinstance(item, PlotCheckBox):
if item.active:
to_plot.append(item.obj)
if (self.ids['graph_space'].children[0].active and
self.plot_current['text']):
orig = main().request_info('tuple_list')
text = self.plot_current['text']
new_plot_obj = {}
for plot_obj in self.plot_history:
if orig == plot_obj['orig'] and text == plot_obj['text']:
new_plot_obj = plot_obj.copy()
#if plot_obj is still empty, get a new one.
if not new_plot_obj:
new_plot_obj = main().request_plot_object()
self.plot_history = np.insert(self.plot_history, 0, new_plot_obj)
if new_plot_obj not in to_plot:
to_plot.insert(0, new_plot_obj)
self.update()
if to_plot:
#plotter = PlotPopup()
#plotter.add_list(to_plot)
#plotter.open()
#for line in plt.figure(1).axes[0].lines:
# if line.get_label() == 'hi':
# print line.get_ydata()
# line.set_zorder(10)
plt.figure(1)
plt.clf()
plt.ion()
plt.ylabel('pct of the total occurences')
plt.xlabel('values')
pt_style = itertools_cycle(['o', '<', '>', 'v', 's', 'p', '*',
'h', 'H','+', 'x', 'D', 'd'])
colors = itertools_cycle(['b', 'g', 'y', 'r', 'c', 'm', 'y', 'k'])
for obj in to_plot:
style = '{}-{}'.format(next(pt_style), next(colors))
plt.plot(obj['pts'][0], obj['pts'][1], style, label=obj['text'])
plt.legend(loc='best')
plt.show()
def render(self, context):
if not hasattr(context, 'cycle_nodes'):
context.cycle_nodes = {}
if self.cyclevars is None:
name = 'CycleNode_%s' % self.variable_name
if not name in context.cycle_nodes:
raise TemplateSyntaxError("Named cycle '%s' does not exist" % name)
node = context.cycle_nodes[name]
else:
if self not in context.cycle_nodes:
context.cycle_nodes[self] = itertools_cycle(self.cyclevars)
if self.variable_name:
# saving self also under a discoverable name
name = 'CycleNode_%s' % self.variable_name
context.cycle_nodes[name] = self
node = self
cycle_iter = context.cycle_nodes[node]
value = cycle_iter.next().resolve(context)
if self.variable_name and self.cyclevars is not None:
context[self.variable_name] = value
return ''
else:
return value
def render_tag(self, context, values, varname):
if self not in context.render_context:
context.render_context[self] = itertools_cycle(values)
cycle_iter = context.render_context[self]
value = cycle_iter.next().resolve(context)
if varname:
context[varname] = value
return value
def render(self, context):
if self not in context.render_context:
context.render_context[self] = itertools_cycle(self.cyclevars)
cycle_iter = context.render_context[self]
value = cycle_iter.next().resolve(context)
if self.variable_name:
context[self.variable_name] = value
return value
def render(self, context):
if self not in context.render_context:
# First time the node is rendered in template
context.render_context[self] = itertools_cycle(context[self.list_variable])
cycle_iter = context.render_context[self]
value = cycle_iter.next()
if self.template_variable:
context[self.template_variable] = value
return ''
def render(self, context):
if context.has_key("forloop"):
if not context.get(self):
context[self] = True
self.cycle_iter = itertools_cycle(self.cyclevars)
value = self.cycle_iter.next()
value = Variable(value).resolve(context)
if self.variable_name:
context[self.variable_name] = value
return value
def render(self, context):
if self not in context.render_context:
# First time the node is rendered in template
context.render_context[self] = itertools_cycle(self.cyclevars)
cycle_iter = context.render_context[self]
value = next(cycle_iter).resolve(context)
if self.variable_name:
context[self.variable_name] = value
if self.silent:
return ''
return render_value_in_context(value, context)
def render(self, context):
if self not in context.render_context:
# First time the node is rendered in template
context.render_context[self] = itertools_cycle(self.cyclevars)
if self.silent:
return ""
cycle_iter = context.render_context[self]
value = cycle_iter.next().resolve(context)
if self.variable_name:
context[self.variable_name] = value
return value
def make_graph(self):
'''makes a graph and plots'''
colors = itertools_cycle([
[0.2, 1.0, 0, 1], [1, 0, 0.2, 1], [0, 0.2, 1, 1],
[0.6, 0, 0.8, 1], [1, 0.4, 0.2, 1], [1, 0.8, 0, 1],
[0.8, 1.0, 0.1, 1]
])
x_range = []
y_range = []
y_ticks = [0.05, 0.1, 0.2, 0.5, 1, 5, 10]
x_ticks = [1, 2, 5, 10, 20, 30, 50, 100, 200,
300, 500, 1000, 2000, 5000]
for plot_obj in self._plot_list:
plot_obj['color'] = next(colors)
self.ids['graph'].add_plot(MeshLinePlot(points=plot_obj['pts'],
color=plot_obj['color']))
if x_range:
x_range[0] = min(x_range[0], plot_obj['x_min'])
x_range[1] = max(x_range[1], plot_obj['x_max'])
else:
x_range = [plot_obj['x_min'], plot_obj['x_max']]
if y_range:
y_range[1] = max(y_range[1], plot_obj['y_max'])
else:
y_range = [0, plot_obj['y_max']]
x_tick_num = (x_range[1]-x_range[0])/9.
for tick in x_ticks:
if x_tick_num < tick:
x_tick_num = tick
break
y_tick_num = (y_range[1]-y_range[0])/20.
for tick in y_ticks:
if y_tick_num < tick:
y_tick_num = tick
break
x_range[0] -= x_range[0] % x_tick_num
current = self.ids['graph'].font_size
factor = 1.
if x_tick_num > 49:
factor = 0.75
if x_tick_num > 99:
factor = 0.66
if x_tick_num > 499:
factor = 0.5
self.ids['graph'].font_size = int(factor * current)
self.ids['graph'].x_ticks_major = x_tick_num
self.ids['graph'].y_ticks_major = y_tick_num
self.ids['graph'].xmin = x_range[0]
self.ids['graph'].ymin = -y_tick_num
self.ids['graph'].xmax = x_range[1]
self.ids['graph'].ymax = y_range[1]
def make_legend(self):
'''created the dropdown menu that's called by 'legend' button'''
colors = itertools_cycle(self._color_list)
for text, pts in self._plot_list:
btn = ListButton(text=text, size_hint=(None, None),
height=80, lst=pts, color=next(colors),
valign='middle')
btn.bind(on_release=self.legend.select)
self.legend.add_widget(btn)
self.legend.on_select = self.flash_plot
self.ids['legend'].bind(on_release=self.legend.open)
self.ids['legend'].bind(on_release=self.resize)
self.legend.bind(on_dismiss=self.shrink_button)
def render(self, context):
if self not in context.render_context:
context.render_context[self] = itertools_cycle(self.cycle_values)
cycle_iter = context.render_context[self]
try:
conditional_variable_value = self.conditional_variable.resolve(context)
if self.passes_condition(conditional_variable_value):
value = next(cycle_iter).resolve(context)
self.last_cycle_value = value
else:
if self.last_cycle_value is None:
self.last_cycle_value = next(cycle_iter).resolve(context)
value = self.last_cycle_value
return render_value_in_context(value, context)
except template.VariableDoesNotExist:
# fail silently...
return
def make_graph(self):
'''makes a graph and plots'''
colors = itertools_cycle(self._color_list)
y_ticks = [0.05, 0.1, 0.2, 0.5, 1, 5, 10]
x_ticks = [1, 2, 5, 10, 20, 30, 50, 100, 200,
300, 500, 1000, 2000, 5000]
for text_pts in self._plot_list:
color_ = next(colors)
self.ids['graph'].add_plot(MeshLinePlot(points=text_pts[1],
color=color_))
#get numbers for graph ticks
x_tick_num = (self.x_range[1]-self.x_range[0])/9.
for tick in x_ticks:
if x_tick_num < tick:
x_tick_num = tick
break
y_tick_num = (self.y_range[1]-self.y_range[0])/20.
for tick in y_ticks:
if y_tick_num < tick:
y_tick_num = tick
break
self.x_range[0] -= self.x_range[0] % x_tick_num
#adjust font size according to tick numbers
current = self.ids['graph'].font_size
font_factor = 1.
if x_tick_num > 49:
font_factor = 0.75
if x_tick_num > 99:
font_factor = 0.66
if x_tick_num > 499:
font_factor = 0.5
self.ids['graph'].font_size = int(font_factor * current)
self.ids['graph'].x_ticks_major = x_tick_num
self.ids['graph'].y_ticks_major = y_tick_num
self.ids['graph'].xmin = self.x_range[0]
self.ids['graph'].ymin = -y_tick_num
self.ids['graph'].xmax = self.x_range[1]
self.ids['graph'].ymax = self.y_range[1]
def __init__(self, **kwargs):
super(NumberInput, self).__init__(**kwargs)
pad = StackLayout(orientation='lr-tb')
texts = itertools_cycle(['+', '-', '='])
for digit in range(1, 10):
pad.add_widget(Button(text=str(digit), size_hint=(0.29, 0.25),
on_press=self.add_digit))
if digit % 3 == 0:
pad.add_widget(Button(text=next(texts), size_hint=(0.1, 0.25),
on_press=self.plus_minus))
pad.add_widget(Button(text='<-BS-', size_hint=(0.29, 0.25),
on_press=self.back_space))
pad.add_widget(Button(text='0', size_hint=(0.29, 0.25),
on_press=self.add_digit))
pad.add_widget(Button(text='ENT', size_hint=(0.39, 0.25),
on_press=self.enter_val))
self.num_pad = Popup(title='', content=pad, size_hint=(0.8, 0.5),
pos_hint={'x':0.1, 'y':0})
self.text = ''
self.background_color = (0.4, 0.2, 1.0, 0.8)
self.bind(on_release=self.open_pad)
self.to_add = 0
self.sign = 1
def reset(self, context):
context.render_context[self] = itertools_cycle(self.cyclevars)
def reset(self, context):
"""
Reset the cycle iteration back to the beginning.
"""
context.render_context[self] = itertools_cycle(self.cyclevars)
def __init__(self, cyclevars, variable_name=None):
self.cycle_iter = itertools_cycle([Variable(v) for v in cyclevars])
self.variable_name = variable_name
def __init__(self, cyclevars, variable_name=None):
self.cycle_iter = itertools_cycle([Variable(v) for v in cyclevars])
self.variable_name = variable_name
def __init__(self, cyclevars, variable_name=None):
self.cycle_iter = itertools_cycle(cyclevars)
self.variable_name = variable_name
def __init__(self, cyclevars, variable_name=None):
self.cyclevars = cyclevars
self.cycle_iter = itertools_cycle(cyclevars)
self.variable_name = variable_name
def reset(self, context):
"""
Reset the cycle iteration back to the beginning.
"""
context.render_context[self] = itertools_cycle(self.cyclevars)
